Download Print this page

R&S NRX Series User Manual

R&S NRX Series User Manual

Power meter

Hide thumbs Also See for NRX Series:

User manual (450 pages)

,

User manual (514 pages)

Table of Contents

Advertisement

Quick Links

Download this manual

®

R&S

NRX

Power Meter

User Manual

(;ÜÅÐ2)

1178556602

Table of Contents

Advertisement

Chapters

Table of Contents

Need help?

Need help?

Do you have a question about the NRX Series and is the answer not in the manual?

Questions and answers

Summary of Contents for R&S NRX Series

Page 1 ® R&S Power Meter User Manual (;ÜÅÐ2) 1178556602...
Page 2 ® This manual describes the R&S NRX (1424.7005.02) with firmware version FW 02.31 and later. In addition to the base unit, the following options are described: ● ® R&S NRX-B1 (1424.7805.02) ● ® R&S NRX-B4 (1424.8901.02) ● ® R&S NRX-B8 (1424.8301.02) ●...
Page 3: Table Of Contents
® Contents R&S Contents 1 Preface....................13 Documentation Overview................... 13 1.1.1 Getting Started Manual....................13 1.1.2 User Manual........................13 1.1.3 Tutorials.........................13 1.1.4 Instrument Security Procedures..................13 1.1.5 Basic Safety Instructions....................14 1.1.6 Data Sheets and Brochures..................14 1.1.7 Release Notes and Open Source Acknowledgment (OSA).......... 14 Key Features........................14 2 Safety and Regulatory Information............
Page 4 ® Contents R&S 3.2.1.2 Module Bay........................24 3.2.1.3 Touchscreen........................25 3.2.1.4 Keys..........................25 3.2.1.5 USB Host Interface....................... 27 3.2.1.6 On/Standby Key......................27 3.2.2 Rear Panel Tour......................28 3.2.2.1 Trig In / Out 2 and Out 1 / Trig Out Connectors............28 3.2.2.2 Ethernet Interface......................28 3.2.2.3...
Page 5 ® Contents R&S 6 Configuration for All Measurement Types.........49 Display Settings......................49 Controlling the Measurement..................58 6.2.1 Controlling the Measurement Results................59 Triggering........................59 6.3.1 Trigger States........................59 6.3.2 Trigger Sources......................60 6.3.3 Dropout Time.........................61 6.3.4 Hold-Off Time........................ 61 6.3.5 Trigger Settings......................62 Measurement Settings Dialog..................66 7 Measurement Types and Result Displays..........70 Continuous Average....................
Page 6 ® Contents R&S 7.6.3 Timeslot Configuration Dialog..................97 Statistics........................99 7.7.1 Statistics Result Display....................99 7.7.2 Statistics Settings......................101 7.7.3 Measurement Settings Dialog..................102 7.7.4 Scale Configuration Dialog..................103 7.7.5 Statistics Timing Dialog....................105 NRT..........................106 7.8.1 NRT Result Display..................... 106 7.8.2 NRT Settings....................... 107 7.8.3 Measurement Main Configuration Dialog..............
Page 7 ® Contents R&S 11.2.4 Help & Copyrights....................... 161 11.3 Hardware Configuration................... 162 11.4 Test..........................163 11.5 Global Settings......................164 12 Firmware Update................166 12.1 Firmware Update via PC and USB or Ethernet Connection........166 12.1.1 Hardware and Software Requirements............... 166 12.1.2 Preparing an Update....................
Page 8 ® Contents R&S 13.5.7.3 Using Markers......................240 13.5.8 Pulse Analysis......................247 13.5.9 Time Gate........................263 13.5.10 Timeslot........................265 13.5.11 Statistics........................268 13.5.11.1 Statistics Measurement Settings.................268 13.5.11.2 Combining Statistics Commands................271 13.5.11.3 Scaling........................272 13.5.11.4 Using Markers......................277 13.5.12 NRT..........................279 13.5.13 Querying Measurement Results..................286 13.6 Calculation Functions....................287 13.6.1...
Page 9 ® Contents R&S 13.8 Configuring the Test Generator................365 13.9 Configuring the Analog Signal Ouput and the Trigger Input/Output....367 13.10 Zeroing........................376 13.11 Running Selftests......................378 13.12 Managing Setups and Correction Tables..............380 13.13 System Information and Configuration..............387 13.13.1 Presetting........................388 13.13.2 Shutdown and Reboot....................388 13.13.3...
Page 10 ® Contents R&S 14.1.2.2 VXI-11 Protocol......................452 14.1.2.3 HiSLIP Protocol......................452 14.1.2.4 Socket Communication....................453 14.1.3 GPIB Interface......................453 14.2 SCPI Command Structure..................453 14.2.1 Syntax for Common Commands................. 454 14.2.2 Syntax for Device-Specific Commands...............454 14.2.3 SCPI Parameters......................455 14.2.4 Overview of Syntax Elements..................458 14.2.5 Structure of a Command Line..................
Page 11 ® Contents R&S 15 Troubleshooting................. 483 15.1 Displaying Information..................... 483 15.2 Error Messages......................483 15.2.1 Interpreting the Errors and Error Codes..............484 15.2.1.1 System Errors......................484 15.2.1.2 Power Sensor Errors....................485 15.2.1.3 Sensor Check Source (R&S NRX-B1) Errors............. 486 15.2.1.4 License Key Errors......................487 15.2.1.5 Error Handling Errors....................
Page 12 ® Contents R&S User Manual 1178.5566.02 ─ 07...
Page 13: Preface
® Preface R&S Documentation Overview 1 Preface This chapter provides an overview of the user documentation and an introduction to the R&S NRX. 1.1 Documentation Overview This section provides an overview of the R&S NRX user documentation. Unless speci- fied otherwise, you find the documents on the R&S NRX product page at: www.rohde-schwarz.com/manual/NRX 1.1.1 Getting Started Manual Introduces the R&S NRX and describes how to set up and start working with the prod-...
Page 14: Basic Safety Instructions
® Preface R&S Key Features 1.1.5 Basic Safety Instructions Contains safety instructions, operating conditions and further important information. The printed document is delivered with the instrument. 1.1.6 Data Sheets and Brochures The data sheet contains the technical specifications of the R&S NRX. It also lists the firmware applications and their order numbers, and optional accessories.
Page 15 ® Preface R&S Key Features See also the R&S NRX fact sheet at www.rohde-schwarz.com. User Manual 1178.5566.02 ─ 07...
Page 16: Safety And Regulatory Information
® Safety and Regulatory Information R&S Korea Certification Class B 2 Safety and Regulatory Information The product documentation helps you use the R&S NRX safely and efficiently. Follow the instructions provided here and in the printed "Basic Safety Instructions". Keep the product documentation nearby and offer it to other users.
Page 17: Getting Started
® Getting Started R&S Preparing for Use 3 Getting Started 3.1 Preparing for Use ● Unpacking and Checking..................17 ● Operating Conditions....................17 ● Considerations for Test Setup................. 18 ● Placing on a Bench Top..................18 ● Mounting in a Rack....................
Page 18: Considerations For Test Setup
® Getting Started R&S Preparing for Use ● The ambient temperature does not exceed the range specified in the data sheet. ● Signal levels at the input connectors are all within the specified ranges. ● Signal outputs are connected correctly and are not overloaded. 3.1.3 Considerations for Test Setup Preventing electrostatic discharge (ESD) Electrostatic discharge is most likely to occur when you connect or disconnect a DUT...
Page 19: Mounting In A Rack
® Getting Started R&S Preparing for Use With folded-out feet, do not place anything on top or underneath the instrument. 3. WARNING! A stack of products can fall over and cause injury. Never stack more than three products on top of each other. Instead, mount them in a rack. Stack as follows: ●...
Page 20: Switching On Or Off
® Getting Started R&S Preparing for Use ● [0]: The instrument is disconnected from the mains. ● [I]: The instrument is power-supplied. It is either ready for operation (STANDBY) or in operating mode. 1. Plug the AC power cable into the AC power connector on the rear panel of the R&S NRX.
Page 21: Connecting Power Sensors
® Getting Started R&S Preparing for Use 3.1.8 Connecting Power Sensors The R&S NRX supports a wide range of R&S power sensors. See the data sheet for detailed information. Depending on the power sensor, you have different choices for connecting power sen- sors.
Page 22: Optional Sensor Interface For R&S Nrt (R&S Nrx-B9)
® Getting Started R&S Preparing for Use 3.1.8.2 Optional Sensor Interface for R&S NRT (R&S NRX-B9) Chapter 3.2.1.2, "Module Bay", on page 24. Suitable for R&S NRT directional power sensors. Communication between R&S NRT-Zxx power sensor and R&S NRX is only possible with a baud rate setting of 38400 Bd.
Page 23: Usb 2.0 Host Interfaces
® Getting Started R&S Instrument Tour 3.1.8.4 USB 2.0 Host Interfaces Chapter 3.2.1.5, "USB Host Interface", on page 27 and Chapter 3.2.2.4, "USB Host Interface", on page 29. Suitable for USB power sensors. You can increase the number of connected power sensors by using USB hubs.
Page 24: Sensor Connector A And B
® Getting Started R&S Instrument Tour 5 = Cursor keys, see "Cursor keys" on page 27. 6 = USB host interface, see Chapter 3.2.1.5, "USB Host Interface", on page 27. 7 = On/standby key, see Chapter 3.2.1.6, "On/Standby Key", on page 27. 3.2.1.1 Sensor Connector A and B See (2) in...
Page 25: Touchscreen
® Getting Started R&S Instrument Tour 2. Pull the option from its casing. 3. Insert the other option. 4. Press until you hear a click when the latch locks. Further information: ● Chapter 3.1.8, "Connecting Power Sensors", on page 21 ●...
Page 26 ® Getting Started R&S Instrument Tour Further information: ● "Going back to a higher hierarchy level" on page 31 ● Chapter 4.3.2, "Returning to Manual Operation (LOCAL)", on page 42 Screenshot Creates a screenshot of the current display. Chapter 4.1.8, "Creating and Saving Screenshots", on page 40.
Page 27: Usb Host Interface
® Getting Started R&S Instrument Tour Also displays status information: ● Zeroing status ● Sensor status [System] Opens the "System Overview" dialog. Chapter 11, "System Settings", on page 136. Cursor keys See (5) in Figure 3-2. The cursor keys are context-sensitive. The control in focus is indicated by a focus frame.
Page 28: Rear Panel Tour
® Getting Started R&S Instrument Tour 3.2.2 Rear Panel Tour Figure 3-3: Rear panel of the R&S NRX 1 = Trig In / Out 2 and Out 1 / Trig Out connectors, see Chapter 3.2.2.1, "Trig In / Out 2 and Out 1 / Trig Out Connectors", on page 28.
Page 29: Usb Device Interface
® Getting Started R&S Instrument Tour 3.2.2.3 USB Device Interface See (3) in Figure 3-3. USB 2.0 (universal serial bus) interface of the type B (receptacle). Used to connect the R&S NRX to a computer for USB remote control. 3.2.2.4 USB Host Interface See (4) in Figure...
Page 30: Sensor Connectors C And D
® Getting Started R&S Instrument Tour 3.2.2.7 Sensor Connectors C and D See (7) Figure 3-3. Requires 3rd and 4th R&S NRP sensor connector (R&S NRX-B4). For more details, see Chapter 3.2.1.1, "Sensor Connector A and B", on page 24. User Manual 1178.5566.02 ─...
Page 31: Operating Concepts
® Operating Concepts R&S Manual Operation 4 Operating Concepts ● Manual Operation....................31 ● Remote Operation....................40 ● Remote Control....................... 41 4.1 Manual Operation Using the graphical user interface of the R&S NRX and the keys on the front panel, you can easily configure the settings and measure in the provided measurement modes.
Page 32: Main Measurement Dialog
® Operating Concepts R&S Manual Operation Figure 4-1: Start dialog (example for setup with one power sensor) 1 = Miniature display layout. See Chapter 4.1.5, "Selecting the Display Layout", on page 36. 2 = Connected sensors 3 = Title 4 = Measurement type 5 = Status information.
Page 33 ® Operating Concepts R&S Manual Operation Layout of the main measurement dialog The operating philosophy in the main measurement dialog is independent of the mea- surement type. The dialog is divided into touch areas that lead to different settings. Figure 4-2: Layout of the main measurement dialog (example) 1 = Settings displayed in the measurement pane 2 = Limit values displayed in the measurement pane 3 = Measurement value displayed in the measurement pane...
Page 34: Status Information
® Operating Concepts R&S Manual Operation The "Primary Sensor" dialog is displayed. Chapter 8, "Sensor Configuration", on page 113. ► Tap the displayed limit values, (2) in Figure 4-2, to change limit values. The "Limit Monitor" dialog is displayed. "Limit Monitor" on page 56.
Page 35: Notification Center
® Operating Concepts R&S Manual Operation 4.1.4 Notification Center The notification center collects all information, warning and error messages during the operation of the R&S NRX. Its status is displayed in the upper right corner: ● The displayed symbol belongs to the most severe message. For example, if one error and 5 notices are present, the symbol of the error message is displayed.
Page 36: Selecting The Display Layout
® Operating Concepts R&S Manual Operation The "Notification Center" dialog has two tabs: ● "System" All messages concerning the instrument are listed. ● "SCPI Error Queue" Messages related to the remote command functionality are displayed. To delete notices no longer needed ►...
Page 37 ® Operating Concepts R&S Manual Operation 3. Select how many measurement panes you want to display. For example, if you select 2 panes, the measurement display looks as follows: Figure 4-3: Two measurement panes Remote command: on page 191 DISPlay:LAYout on page 193 DISPlay[:WINDow<Window>][:STATe] User Manual 1178.5566.02 ─...
Page 38: Swapping Measurement Panes
® Operating Concepts R&S Manual Operation 4.1.6 Swapping Measurement Panes You can swap the position of measurement panes using drag and drop. The numbering of the panes is not changed. To change the position of a measurement pane ► Touch & hold a measurement pane and drag it into the new position. The two panes have changed position: In the "Select Display Layout"...
Page 39: Editing Parameters
® Operating Concepts R&S Manual Operation Remote command: on page 193 DISPlay[:WINDow<Window>]:POSition 4.1.7 Editing Parameters ► Tap a parameter to change its value. Depending on the selected parameter, a numeric or an alphanumeric editor is dis- played. The numeric editor shows for each parameter the specific value range (min, max). Figure 4-4: Numeric editor Use the alphanumeric editor as a standard keyboard.
Page 40: Creating And Saving Screenshots
® Operating Concepts R&S Remote Operation Figure 4-5: Alphanumeric editor 4.1.8 Creating and Saving Screenshots You can create a screenshot of the current display, for example to save graphical mea- surement results. ► Press the [Screenshot] key on the front panel. The R&S NRX saves the screenshot in PNG format.
Page 41: Remote Control
® Operating Concepts R&S Remote Control By default, VNC access is enabled. Any user in the network who knows the password and IP address of the R&S NRX can access the R&S NRX. To prevent access, disable the VNC server service under "VNC"...
Page 42: Switching To Remote Control (Remote)
® Operating Concepts R&S Remote Control 4.3.1 Switching to Remote Control (REMOTE) Prerequisites ● A link is established between the controller and the R&S NRX. ● The R&S NRX is configured correctly. After power-up, the R&S NRX is always in manual control mode, "LOCAL". When the R&S NRX receives a SCPI command, it switches to remote control irrespective of the selected interface.
Page 43: Measurement Basics
® Measurement Basics R&S Sensor Assignment and Memory 5 Measurement Basics In a measurement, the R&S NRX uses all sensor-dependent measurement functions and displays the results. Thus, you can configure both the measurement and the sen- sor. The R&S NRX saves all settings. ●...
Page 44 ® Measurement Basics R&S Sensor Assignment and Memory ● Sensor type is different to the sensor type that was previously assigned to the mea- surement. Decide whether you want to use the settings of the sensor. – "Use Default" Uses the sensor settings. For details, see the user manual of the sensor. –...
Page 45: Performing A Measurement
® Measurement Basics R&S Performing a Measurement The sensor assignment is deleted by a preset, reset or sanitization. If the R&S NRX has no memory of a previous sensor assignment, the R&S NRX assigns the measure- ments according to the port, to which the power sensors are connected. The number of measurement panes is adapted automatically.
Page 46: Limit Violation
® Measurement Basics R&S Limit Violation a) Press the [Preset] key. b) Tap "Preset". See also Chapter 9, "Saving and Recalling Settings", on page 132. 2. Depending on the power sensor and the measurement conditions, consider to zero the power sensor: Execute zeroing: Note: Turn off all measurement signals before zeroing.
Page 47: Settings Conflict
® Measurement Basics R&S Settings Conflict 5.5 Settings Conflict A settings conflict can occur for the following reasons: ● The sensor assigned to the measurement does not support a set value. If it is a numeric value, the suitable range for the sensor is given in the tooltip. ●...
Page 48 ® Measurement Basics R&S Settings Conflict 2. Select another measurement type that the sensor supports, or assign another sen- sor. A setting that differs from the preset value is also indicated across the hierarchies by a pencil symbol, if the visualization is enabled. See "Visualize Non-Preset State"...
Page 49: Configuration For All Measurement Types
® Configuration for All Measurement Types R&S Display Settings 6 Configuration for All Measurement Types The main measurement dialog offers access to all measurement settings. The layout of the dialog and how to open is are described in Chapter 4.1.2, "Main Measurement Dia- log", on page 32.
Page 50 ® Configuration for All Measurement Types R&S Display Settings Display Format......................51 Auxiliary Values......................51 Scaling.......................... 52 └ Scale Lower Limit....................52 └ Scale Upper Limit....................52 └ Forward Scale Lower Limit, Reflection Scale Lower Limit......52 └ Forward Scale Upper Limit, Reflection Scale Upper Limit......
Page 51: Display Format
® Configuration for All Measurement Types R&S Display Settings "Δ%" Difference between the power values in W, given in %. 0 % means that the powers in both channels are equal. "x1" Quotient of the power values (non-logarithmic) Remote command: on page 209 UNIT<Measurement>:POWer[:VALue] on page 208...
Page 52: Scaling
® Configuration for All Measurement Types R&S Display Settings Remote command: on page 188 CALCulate<Measurement>:AVALue Scaling Configures the display scaling. The available parameters depend on the following set- tings: ● Measurement Type ● "Display Format" on page 51 Scale Lower Limit ← Scaling Display Format is set to "Scalar Analog", available for continuous average, burst average, time gate, timeslot measurements.
Page 53: Forward Scale Upper Limit, Reflection Scale Upper Limit
® Configuration for All Measurement Types R&S Display Settings Defines the lower limit of the bargraph display. Remote command: CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]: on page 195 CCDF CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]: on page 195 RATio:RCOefficient CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]: on page 195 RATio:RFRatio CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]: on page 196 RATio:RLOSs CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]: on page 196 RATio:SWR CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]:...
Page 54: Trace Length
® Configuration for All Measurement Types R&S Display Settings Sets the time resolution of the results window. The time per division is one tenth of the Trace Length. Trace Length ← Scaling Available for trace, pulse analysis measurements. If Display Format is set to "Graphi- cal", available for time gate, timeslot measurements.
Page 55: Forward Reference Value, Reflection Reference Value
® Configuration for All Measurement Types R&S Display Settings Groups the settings for relative measurements. Forward Reference Value, Reflection Reference Value ← Relative Measurements Available for NRT measurements. Available if Forward Relative State, Reflection Relative State is set to "On" or "Set". Sets the reference value.
Page 56: Max Hold Function
® Configuration for All Measurement Types R&S Display Settings Max Hold Function For all measurement functions, the R&S NRX stores the maximum and minimum val- ues and the calculated differences between these values. The selected setting applies to both power and reflection indication. You can change at any time.
Page 57: Forward Lower Limit State, Reflection Lower Limit State
® Configuration for All Measurement Types R&S Display Settings Enables or disables the monitoring function for the upper limit. Remote command: CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer:STATe on page 218 Upper Limit ← Limit Monitor Available for continuous average, burst average, time gate, timeslot measurements. Available if Upper Limit Stateis set to "On".
Page 58: Controlling The Measurement
® Configuration for All Measurement Types R&S Controlling the Measurement CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]: on page 212 RATio:RLOSs CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]: on page 213 RATio:SWR CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]: on page 213 RATio[:VALue] Forward Upper Limit State, Reflection Upper Limit State ← Limit Monitor Available for NRT measurements. Enables or disables the monitoring function for the upper limit.
Page 59: Controlling The Measurement Results
® Configuration for All Measurement Types R&S Triggering Further information: ● Chapter 6.3, "Triggering", on page 59 ● See the power sensor user manual for examples on the interplay of the controlling mechanisms. 6.2.1 Controlling the Measurement Results The R&S NRX can cope with the wide range of measurement scenarios with the help of the so-called "termination control".
Page 60: Trigger Sources
® Configuration for All Measurement Types R&S Triggering ● Measuring The power sensor is measuring data. It remains in this state during the measure- ment. When the measurement is completed, it exits this state immediately. 6.3.2 Trigger Sources The possible trigger conditions and the execution of a trigger depend on the selected trigger mode and trigger source.
Page 61: Dropout Time
® Configuration for All Measurement Types R&S Triggering 6.3.3 Dropout Time The dropout time is useful when dealing with signals with several active slots, for example GSM signals, see Figure 6-2. When measuring in sync with the signal, a trig- ger event is to be produced at A, but not at B or C.
Page 62: Trigger Settings
® Configuration for All Measurement Types R&S Triggering 6.3.5 Trigger Settings Access: Main measurement dialog > "Trigger" For trace or pulse analysis measurements, the access is: Main measurement dialog > "Trigger" > "Sensor Trigger" Trigger Mode......................... 62 Trigger Source.......................63 Trigger Level.........................
Page 63: Trigger Source
® Configuration for All Measurement Types R&S Triggering "Auto" Automatically starts a measurement if no trigger event has occurred after 300 ms. Remote command: on page 225 TRIGger<undef>:ALL:MODE on page 225 TRIGger<Measurement>:MODE Trigger Source For primary and secondary power sensors. Sets the source for the trigger event.
Page 64: Dropout
® Configuration for All Measurement Types R&S Triggering Remote command: on page 222 TRIGger<undef>:ALL:DELay[:VALue] on page 222 TRIGger<Measurement>[:CHANnel<Channel>]:DELay[:VALue] Dropout ← Trigger Advanced If the trigger level has been underrun with internal triggering, it is sometimes useful to wait some time (drop-out time) before retriggering. The measurement of unwanted sig- nal components can thus be suppressed.
Page 65: Trigger Master Port
® Configuration for All Measurement Types R&S Triggering The trigger master has to use its internal trigger source. Set the trigger source for the trigger slaves to "Internal [A to D]", where [A to D] is the port to which the trigger mas- ter is connected.
Page 66: Measurement Settings Dialog
® Configuration for All Measurement Types R&S Measurement Settings Dialog 6.4 Measurement Settings Dialog Access: In the main measurement dialog, tap the displayed measurement value or graphic. See also "Layout of the main measurement dialog" on page 33. In this dialog, you select the measurement type and the channel calculation function. Based on the selected measurement and function, you can assign one or two sensors.
Page 67: Measurement Type
® Configuration for All Measurement Types R&S Measurement Settings Dialog Measurement Type Sets the measurement type. Remote command: on page 231 CALCulate<Measurement>:TYPE Primary Sensor, Secondary Sensor Available for continuous average, burst average, trace, pulse analysis, time gate, time- slot measurements. Assigns the primary or secondary sensor.
Page 68: Quick Setup
® Configuration for All Measurement Types R&S Measurement Settings Dialog The letters in brackets indicate the port to which the primary or secondary sensor is connected. In this example, the primary sensor is connected to port C, and the secon- dary sensor is connected to port A.
Page 69: Recall Parameter Set
® Configuration for All Measurement Types R&S Measurement Settings Dialog Remote command: on page 341 SYSTem:STANdard:PWSettings Recall Parameter Set ← Quick Setup Loads the parameters set selected under Parameter Set. Remote command: on page 340 SYSTem:STANdard:PRESet User Manual 1178.5566.02 ─ 07...
Page 70: Measurement Types And Result Displays
® Measurement Types and Result Displays R&S Continuous Average 7 Measurement Types and Result Displays The different measurement types and their specific configuration settings are described in the following. For settings available for all measurements, refer to Chapter 6, "Con- figuration for All Measurement Types", on page 49.
Page 71: Continuous Average Settings
® Measurement Types and Result Displays R&S Continuous Average The measurement result is a single scalar value, either an absolute value or related to a reference value. 7.1.2 Continuous Average Settings Access: "Measurement Settings" > "Measurement Type" > "Continuous Average" Unit..........................71 Resolution........................
Page 72: Burst Average
® Measurement Types and Result Displays R&S Burst Average Relative Measurements ← Rel Allows you to relate measured power or a power ratio to a reference value. Whether the power is measured by one power sensor or whether it is a combined value mea- sured by two power sensors, is set by "Channel Calculation Function"...
Page 73: Burst Average Result Display
® Measurement Types and Result Displays R&S Burst Average interval in which the pulse end is only recognized if the signal level no longer exceeds the trigger level. Useful parameters: ● "Trigger Level" on page 63 ● "Dropout" on page 64 ●...
Page 74: Trace
® Measurement Types and Result Displays R&S Trace Display Chapter 6.1, "Display Settings", on page 49. "Rel" on page 71. Trigger Chapter 6.3, "Triggering", on page 59. 7.3 Trace The power sensor measures power over time. Define the number of measurement points and the measurement time.
Page 75: Trace Settings
® Measurement Types and Result Displays R&S Trace 7.3.2 Trace Settings Access: "Measurement Settings" > "Measurement Type" > "Trace" Display.......................... 75 Pos / Scaling......................... 75 Autoscale........................75 Info / Marker........................75 M1 / M2 / M3 / M4......................75 Trigger........................... 76 └...
Page 76: Trace Marker Dialog
® Measurement Types and Result Displays R&S Trace Trigger Gives quick access to selected trigger settings. Shows the trace. The trigger level is indicated as dotted red line. Display ← Trigger Chapter 6.1, "Display Settings", on page 49. Trig Mode ← Trigger "Trigger Mode"...
Page 77 ® Measurement Types and Result Displays R&S Trace Marker Mode......................... 77 Position Mode....................... 77 Position......................... 78 Data Source........................79 Reference Marker......................79 Measurement Mode...................... 79 Marker Mode Enables or disables the marker. Also defines the appearance of the marker. "Off" Disables the marker.
Page 78 ® Measurement Types and Result Displays R&S Trace "From Ref Power <-" Starting from the right border, at a power difference of Position to the y-position of the Reference Marker. "From Ref Power ->" Starting from the left border, at a power difference of Position to the y- position of the...
Page 79: Pulse Analysis
® Measurement Types and Result Displays R&S Pulse Analysis Data Source Available if "Measure" is set under Marker Mode. Selects the trace. Remote command: DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:FEED:INDex on page 241 Reference Marker Defines a marker as reference marker. Remote command: DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:REFerence on page 246 Measurement Mode Available if "Measure"...
Page 80: Pulse Analysis Result Display
® Measurement Types and Result Displays R&S Pulse Analysis 7.4.1 Pulse Analysis Result Display Shows a pulse signal in trace presentation. 2 traces are available. The measurement results are displayed below the trace. Each measurement result is represented by a symbol that is also used to select the result.
Page 81: Pulse Analysis Dialog
® Measurement Types and Result Displays R&S Pulse Analysis Trigger Gives quick access to selected trigger settings. See "Trigger" on page 76. 7.4.3 Pulse Analysis Dialog Access: Tap the measurement results that are displayed below the trace. On the "Time" and "Power" tabs, select the measurement results that are displayed below the trace.
Page 82 ® Measurement Types and Result Displays R&S Pulse Analysis └ Neg. Overshoot....................85 └ Pulse Base......................86 └ Trace Min......................86 └ High Ref......................86 └ Trace Avg......................86 └ Pos. Overshoot....................86 └ Ref......................87 Configuration tab......................87 └ Reference Levels relate to................87 └...
Page 83 ® Measurement Types and Result Displays R&S Pulse Analysis Pulse Period ← Time tab Time between two consecutive edges of the same polarity in seconds. During this time, the pulse signal completes one cycle. Remote command: DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:PERiod[:STATe] on page 260 on page 254 CALCulate<Measurement>:TRACe:MEASurement:PULSe:PERiod? Duty Cycle ←...
Page 84 ® Measurement Types and Result Displays R&S Pulse Analysis Start Time ← Time tab Time when the signal passes through the medial reference power level with rising edge, referenced to the delayed trigger event. Indicates the start point of the first power pulse within the analysis window.
Page 85 ® Measurement Types and Result Displays R&S Pulse Analysis Pulse Top ← Power tab Pulse top power level detected by the selected Algorithm. This value is used as a refer- ence (100 %) to determine other parameter values such as the rising or falling thresh- olds.
Page 86 ® Measurement Types and Result Displays R&S Pulse Analysis Pulse Base ← Power tab Pulse base power level detected by the selected Algorithm. This value is used as a ref- erence (0 %) to determine other parameter values such as the rising or falling thresh- olds.
Page 87 ® Measurement Types and Result Displays R&S Pulse Analysis Low Ref. ← Power tab Power level at Low Reference Level. Remote command: DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe: on page 258 LREFerence[:STATe] CALCulate<Measurement>:TRACe:MEASurement:POWer:LREFerence? on page 252 Configuration tab Defines the reference levels for the pulse timing. All values are specified in percent of the pulse amplitude.
Page 88: Time Gate
® Measurement Types and Result Displays R&S Time Gate "Integration" Fits a rectangle pulse of the same energy into the pulse signal as a reference and thus determines the pulse top power. This algorithm is recommended for: ● Pulse signals with modulation ●...
Page 89: Time Gate Result Display
® Measurement Types and Result Displays R&S Time Gate 7.5.1 Time Gate Result Display You can choose between a scalar or graphical result display. To change the display format 1. Select the time gate measurement type: "Measurement Settings" > "Measurement Type" > "Time Gate" 2.
Page 90: Time Gate Settings
® Measurement Types and Result Displays R&S Time Gate Graphical display Figure 7-4: Time gate, graphical display In the upper pane, the measurement result is shown as a single trace measurement of the primary sensor. The active gate is indicated as colored area. The color is matching the color assigned to the gate.
Page 91 ® Measurement Types and Result Displays R&S Time Gate G1 / G2 / G3 / G4......................91 Gates..........................91 Display.......................... 91 Resolution........................91 Pos / Scaling......................... 91 Autoscale........................91 t0 / t1 / t2 / t3......................... 91 Rel..........................92 Trigger........................... 92 G1 / G2 / G3 / G4 Selects the active gate for the measurement.
Page 92: Gate Configuration Dialog
® Measurement Types and Result Displays R&S Time Gate "t0" Start of Gate "t1" Length of Gate "t2" Start of Fence. Only available if Fence is enabled. "t3" Length of Fence. Only available if Fence is enabled. Available for the scalar displays. "Rel"...
Page 93: Timeslot
® Measurement Types and Result Displays R&S Timeslot Start of Gate........................93 Length of Gate......................93 Fence..........................93 Start of Fence........................93 Length of Fence......................93 Start of Gate Sets the start time of the gate. Remote command: on page 264 CALCulate<Measurement>[:POWer]:TGATe<Gate>[:AVG]:TIME Length of Gate Sets the length of the gate.
Page 94: Timeslot Result Display
® Measurement Types and Result Displays R&S Timeslot resolution is determined by the sampling rate of the power sensor. An external trigger signal or internal signal triggering is required for synchronization. Timeslot 1 Timeslot 2 Timeslot 3 Trigger event Trigger level Time Timeslot width Exclude from start...
Page 95 ® Measurement Types and Result Displays R&S Timeslot Scalar display Figure 7-7: Timeslot, scalar digital display The measurement result is a single scalar value. It refers to the selected timeslot. If "Scalar Analog" is set as Display Format, a bar chart visualizes the measurement result.
Page 96: Timeslot Settings
® Measurement Types and Result Displays R&S Timeslot In the upper pane, the measurement result is shown as a single trace measurement of the primary sensor. The timeslots are indicated as rectangles. The selected timeslot is indicated as colored area. You can change the timeslot configuration directly by using touch gestures.
Page 97: Timeslot Configuration Dialog
® Measurement Types and Result Displays R&S Timeslot Resolution Available for the scalar displays. "Resolution" on page 50. Pos / Scaling Available if: ● Graphical display is enabled. ● t1, t2, t3, t4, t5 is disabled. Scales or moves the graph. Autoscale Available for the graphical display.
Page 98 ® Measurement Types and Result Displays R&S Timeslot Slots..........................98 Nominal Width.......................98 Exclude from Start......................98 Exclude from End......................98 Fence..........................99 Start of Fence........................99 Length of Fence......................99 Slots Sets the number of simultaneously measured timeslots. Remote command: on page 266 CALCulate<Measurement>[:POWer]:TSLot[:AVG]:COUNt Nominal Width Sets the length of the timeslot.
Page 99: Statistics
® Measurement Types and Result Displays R&S Statistics Fence Enables or disables an exclusion interval in the timeslots. This exclusion interval is called fence. The fence is defined by its start time and its length. Remote command: CALCulate<Measurement>[:POWer]:TSLot[:AVG][:EXCLude]:MID[:STATe] on page 268 Start of Fence Sets the start time of the fence.
Page 100 ® Measurement Types and Result Displays R&S Statistics Power value at the y-marker position. The marker is set using marker. Figure 7-9: Statistics, graphical display The graph displays the waveform of the selected trace. Table to display the measurement results in tabular format. The table contains the measurement results for 2 traces.
Page 101: Statistics Settings
® Measurement Types and Result Displays R&S Statistics 7.7.2 Statistics Settings Access: "Measurement Settings" > "Measurement Type" > "Statistics" Graph / Table.......................101 Scaling........................101 Evaluate........................101 [dBm] / [dB] marker..................... 101 marker........................101 Trigger......................... 101 Graph / Table Available if "CCDF" or "CDF" is set under Statistics Function.
Page 102: Measurement Settings Dialog
® Measurement Types and Result Displays R&S Statistics 7.7.3 Measurement Settings Dialog Access: In the "Statistics" dialog, tap the displayed table or graph. The settings in the left column are the same as for the other measurement types: ● "Measurement Type", see "Measurement Type"...
Page 103: Scale Configuration Dialog
® Measurement Types and Result Displays R&S Statistics Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:FEED<Channel> on page 229 Minimum Samples Sets the minimum number of samples. Remote command: on page 270 CALCulate<Measurement>:STATistics:SAMPles[:MINimum] AWGN Enables or disables the internal, additional white Gaussian noise (AWGN) source. If enabled, you cannot measure with a second power sensor.
Page 104 ® Measurement Types and Result Displays R&S Statistics Scaling of Power Axis Sets relative or absolute scaling for the x-axis. "Absolute" Absolute power in dBm. "Relative" Relative power in dB, referenced to the average power. Remote command: on page 274 CALCulate<Measurement>:STATistics[:SCALe]:X:MODE Minimum Power Sets the lower limit of the level range as reference for the graphical display.
Page 105: Statistics Timing Dialog
® Measurement Types and Result Displays R&S Statistics 7.7.5 Statistics Timing Dialog Access: "Statistics" > "Evaluate" Configures the sampling window of the measurement. If you tap the lower pane, the "Gate Configuration" dialog opens, see Chapter 7.5.3, "Gate Configuration Dialog", on page 92.
Page 106: Nrt
® Measurement Types and Result Displays R&S Evaluate Opens the "Evaluate" dialog to configure the sampling window. "Gate 1" / "Gate 2" / "Gate 3" / "Gate 4" Select the gate that you want to configure and use for the measure- ment.
Page 107: Nrt Settings
® Measurement Types and Result Displays R&S Displays two scalar values, one for the selected Forward measurement and one for the Reflection measurement. In this example, Average ("Aver") and Return Loss ("RLos") are selected. 7.8.2 NRT Settings Access: "Measurement Settings" > "Measurement Type" > "NRT" Forward........................
Page 108: Average
® Measurement Types and Result Displays R&S Peak envelope power (PEP) Burst average Average Time Burst width Burst period Figure 7-11: Forward power measurement parameters Average ← Forward Average power Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:FEED<Channel> "POWer:FORWard:AVERage" CCDF ← Forward Complementary cumulative distribution function. Probability that the envelope power is higher than the threshold set under "CCDF Threshold"...
Page 109: Crest Factor (Cf)
® Measurement Types and Result Displays R&S This parameter measures the effective power transmitted to the load. With good matching, the difference between forward power and absorbed power is less than one percent. Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:FEED<Channel> "POWer:ABSorption:AVERage" Crest Factor (CF) ← Forward Level difference between the peak envelope power and the average power in dB.
Page 110: Reflection
® Measurement Types and Result Displays R&S Reflection Opens a dialog to measure reflection parameters. The ratio of forward and reverse power is a measure for the matching of the load that can be expressed as standing wave ratio (SWR), return loss or reflection coefficient. Off ←...
Page 111: Measurement Main Configuration Dialog
® Measurement Types and Result Displays R&S Reflection Ratio ← Reflection Reverse power Reflection ratio = Forward power Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:FEED<Channel> "POWer:RFRatio" UNIT<Measurement>:POWer:REFLection Display Chapter 6.1, "Display Settings", on page 49. Autoscale Adapts the scaling of the graphical display. Remote command: on page 283 [SENSe<Sensor>:]POWer:REFLection:RANGe:AUTO on page 283...
Page 112 ® Measurement Types and Result Displays R&S Measurement Type "Measurement Type" on page 67. Sensor Assigns the power sensor to the NRT measurement. Suitable are R&S NRT directional power sensors connected to the sensor interface for R&S NRT (R&S NRX-B9). See also "Primary Sensor, Secondary Sensor"...
Page 113: Sensor Configuration
® Sensor Configuration R&S Mode Settings 8 Sensor Configuration Access: "Measurement Settings" > "Primary Sensor Config" or "Secondary Sensor Config" You can define two sensor configurations in parallel, a primary and a secondary sensor configuration. To these configurations, you can assign a sensor that is connected to one of the sensor ports of the R&S NRX.
Page 114 ® Sensor Configuration R&S Mode Settings Duty Cycle State......................114 Duty Cycle........................114 Equivalent Time Sampling...................115 Evaluate........................115 Aperture........................115 Sampling Rate......................115 Smoothing........................116 Dropout Tolerance....................... 116 Exclude from Start, Exclude from End.................116 Duty Cycle State Available for continuous average measurements. Enables or disables the duty cycle correction. Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:DCYCle: on page 321...
Page 115 ® Sensor Configuration R&S Mode Settings Equivalent Time Sampling Available for trace, pulse analysis measurements. Enables or disables the automatic equivalent sampling that allows for high-resolution measurements. Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:ESAMpling on page 322 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:ESAMpling: on page 324 AUTO[:STATe] Evaluate Available for continuous average, burst average, trace, pulse analysis, time gate, time- slot measurements.
Page 116 ® Sensor Configuration R&S Mode Settings "2" Lower sampling rate Recommended to avoid measurement errors caused due to aliasing effects. However, this setting extends the measurement time. Remote command: on page 322 CALCulate<Measurement>[:CHANnel<Channel>]:SAMPling Smoothing Available for continuous average measurements. Enables or disables the smoothing filter, a steep-edge digital lowpass filter. The filter reduces result fluctuations caused by modulation.
Page 117: Correction Settings
® Sensor Configuration R&S Correction Settings 8.2 Correction Settings Access: "Measurement Settings" > "Primary Sensor Config" > "Correction" "Measurement Settings" > "Secondary Sensor Config" > "Correction" Available for all measurement types. Offset corrections Add a fixed level offset in dB to compensate for external losses or gains. If you take the attenuation of an attenuator located ahead of the power sensor or the coupling attenu- ation of a directional coupler into account, use a positive offset.
Page 118 ® Sensor Configuration R&S Correction Settings Offset State........................118 Offset........................... 118 S-Parameter List......................118 Frequency Dependent Offset..................118 └ Primary Sensor Offsets, Secondary Sensor Offsets dialogs......118 └ Frequency dependent offset active.............119 └ Frequency dependent offset table............119 └ Edit table name................... 119 └...
Page 119 ® Sensor Configuration R&S Correction Settings Frequency dependent offset active ← Primary Sensor Offsets, Secondary Sensor Offsets dialogs ← Frequency Dependent Offset Enables or disables the selected table. If enabled, the measurement results are corrected using the specified offset. If the exact frequency value is not available in the table, the values of the table are interpola- ted.
Page 120: Filter Settings
® Sensor Configuration R&S Filter Settings Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma:CORRection: on page 328 STATe Gamma Phase Available if Gamma Correction is enabled. Sets the phase angle of the complex reflection coefficient of the source. Remote command: on page 328 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma:PHASe Gamma Magnitude Available if Gamma Correction is enabled.
Page 121 ® Sensor Configuration R&S Filter Settings Filter State........................121 Filter Length........................ 121 Recalc Filter Length....................122 Clear Filter Buffer......................122 Fixed Noise Mode....................... 122 Noise Content......................122 Maximum Settling Time....................122 Timeslot........................123 Moving Average State....................123 Moving Average......................123 Averaging Domain.......................123 Video Bandwidth......................124 Filter State Enables or disables the averaging filter.
Page 122 ® Sensor Configuration R&S Filter Settings Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt[:VALue] on page 363 CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage:COUNt[: on page 334 VALue] Recalc Filter Length Available for continuous average, burst average, time gate measurements. Recalculates the number of readings that are averaged for one measured value. Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt:AUTO[: on page 362...
Page 123 ® Sensor Configuration R&S Filter Settings Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt:AUTO: on page 330 MTIMe Timeslot Available for continuous average, burst average measurements. Sets a timeslot from which the measured value is used to determine the filter length automatically. The timeslot number must not exceed the number of the currently set timeslots.
Page 124: Range Settings
® Sensor Configuration R&S Range Settings "Linear" Amplitude averaging Remote command: on page 333 CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:TYPE Video Bandwidth Requires a wideband power sensor. Sets the video filter bandwidth. Reducing the video bandwidth also increases the trig- ger sensitivity. Note: The video bandwidth must never be smaller than the RF bandwidth of the signal. Remote command: CALCulate<Measurement>[:CHANnel<Channel>][:POWer]:VBWidth:ENUM on page 336...
Page 125 ® Sensor Configuration R&S Range Settings Range State........................ 125 Range..........................125 User Defined Transition....................125 Offset...........................126 Attenuator Mode......................126 Attenuation........................126 Range State Enables or disables the automatic measurement path selection. Remote command: CALCulate<Measurement>[:CHANnel<Channel>][:POWer][:AVG]:RANGe: on page 338 AUTO Range Available if Range State is set to "User".
Page 126: Nrt Measurement Type
® Sensor Configuration R&S NRT Measurement Type Offset Reduces the transition range between the measurement paths, 0 -> 1 and 1 -> 2, by the set value, the so-called cross-over level. Thus, you can improve the measurement accuracy for signals with a high peak-to-average ratio, since the headroom for modula- tion peaks becomes larger.
Page 127: Nrt Mode Settings
® Sensor Configuration R&S NRT Measurement Type 8.5.1 NRT Mode Settings Access: "Measurement Main Configuration" > "Sensor Configuration" > "Mode" Burst Mode........................127 Burst Period........................ 127 Burst Width........................128 Direction........................128 CCDF Threshold......................128 PEP Hold Time......................128 Burst Mode Defines how the average burst power is determined. "Auto"...
Page 128: Nrt Correction Settings
® Sensor Configuration R&S NRT Measurement Type Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:PERiod on page 356 Burst Width Available if "User" is set under "Burst Mode" on page 127. Sets the burst width. Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:WIDTh on page 357 Direction Defines how the forward power is determined. "Auto"...
Page 129 ® Sensor Configuration R&S NRT Measurement Type Offset Reference Plane....................129 Offset...........................129 Modulation........................129 WCDMA Chip Rate..................... 130 Offset Reference Plane Selects the power sensor port to which the measurement results are referred to. "Source" Source connector of the R&S NRT-Zxx power sensor "Load"...
Page 130: Nrt Filter Settings
® Sensor Configuration R&S NRT Measurement Type "IS95" IS- 95 CDMA standard for base stations. "WCDMA" WCDMA standard for base stations. "DVBT" DVB-T standard for terrestrial DVB TV transmitters. "DAB" DAB standard for radio transmitters. Remote command: CALCulate<Measurement>[:CHANnel<Channel>]:NRT:DMODulation[: on page 360 VALue] on page 359 [SENSe<Sensor>:]DM:STATe...
Page 131 ® Sensor Configuration R&S NRT Measurement Type Video Bandwidth For measuring the peak envelope power, specify the video bandwidth that the power sensor uses for measuring the detected RF signal. "4 kHz" | "200 kHz" | "Full" "Full" means that the maximum bandwidth of the power sensor is used.
Page 132: Saving And Recalling Settings
® Saving and Recalling Settings R&S 9 Saving and Recalling Settings When shutting down, the R&S NRX saves the measurement settings. When booting the next time, the R&S NRX uses the settings from the last session. See also Chap- ter 3.1.7, "Switching On or Off", on page 20.
Page 133 ® Saving and Recalling Settings R&S 3. Tap "Recall". Preset..........................133 Save / Recall Setup.....................133 Save..........................133 Setup Name........................ 133 Recall.......................... 133 Preset Sets the R&S NRX and the connected R&S power sensors to a defined initial state. Thus, you can change parameter values from a well defined starting point. If the default setting of the R&S NRX is not compatible with the sensor, either the default settings are adapted for the sensor or a setting conflict results.
Page 134: Zeroing Sensors
® Zeroing Sensors R&S 10 Zeroing Sensors Zeroing removes offset voltages from the analog circuitry of the sensors, so that there are only low powers displayed when there is no power applied. Zeroing is recommended if: ● The temperature has varied by more than 5 K. ●...
Page 135 ® Zeroing Sensors R&S 3. You can zero an individual sensor or all sensors at once: ● Tap "Zero All Sensors". ● in the row of the sensor you want to zero. The status changes from in progress to successful. Remote command: ●...
Page 136: System Settings
® System Settings R&S Connections 11 System Settings The system settings do not affect the measurements directly. Access: [System] Figure 11-1: System Overview dialog The "System Overview" dialog is divided into the following tabs: ● Connections......................136 ● Instrument Info...................... 152 ●...
Page 137: Network Settings
® System Settings R&S Connections 11.1.1 Network Settings Access: [System] > "Connections" > "Network" Contains the settings for integrating the R&S NRX in a network. There are two meth- ods to establish a network connection between R&S NRX and computer: ►...
Page 138: Overview Tab
® System Settings R&S Connections Overview tab Apart from the Host Name, the other parameters are only displayed here. Configure them on the "IPv4 tab" on page 139. Host Name ← Overview tab Sets the individual hostname of the R&S NRX. In a LAN that uses a domain name system server (DNS server), you can access each connected instrument using a unique hostname instead of its IP address.
Page 139: Dns Server
® System Settings R&S Connections DNS Server ← Overview tab Displays the IP address of the DNS server of the local subnet. Set the parameter under "DNS Server" on page 140. IPv4 tab Addresses consist of 4 number blocks separated by dots. In maximum, each block contains 3 digits, for example 100.100.100.100.
Page 140: Remote Settings
® System Settings R&S Connections Remote command: on page 391 SYSTem:COMMunicate:NETWork[:IPADdress][:ADDRess] on page 391 SYSTem:COMMunicate:INET[:SELF]:ADDRess Subnet Mask ← IPv4 tab Available if "Static" is set under Address Mode. Sets the subnet mask of your local subnet. Remote command: on page 392 SYSTem:COMMunicate:NETWork[:IPADdress]:SUBNet:MASK on page 392 SYSTem:COMMunicate:INET[:SELF]:SUBNetmask:ADDRess...
Page 141: Visa Resource Tab
® System Settings R&S Connections VISA Resource tab Interface - VISA Resource table ← VISA Resource tab Displays the VISA resource strings of the interfaces available for remote control. In a LAN, the VISA resource string is required to establish a communication session between the controller and the R&S NRX.
Page 142: Gpib Address
® System Settings R&S Connections GPIB Address ← Settings tab Sets the GPIB address. See also Chapter 14.1.3, "GPIB Interface", on page 453. "1" to "30" Channel address Remote command: on page 393 SYSTem:COMMunicate:GPIB[:SELF]:ADDRess Emulations tab Language ← Emulations tab Sets the language for the remote commands.
Page 143: Input/Output Settings (I/O)
® System Settings R&S Connections Remote command: on page 395 SYSTem:IDN:MODE on page 395 SYSTem:IDN:AUTO Customization of *OPT? ← Emulations tab Sets which option string is used. "Off" Default option string "User" Customized option string. Enter the customized option string under Custom OPT String.
Page 144 ® System Settings R&S Connections └ Fail Voltage....................148 └ Trigger Source for Trigger Output..............148 └ Impedance for Trigger Input................148 Sensor Check Source tab Requires the sensor check source (R&S NRX-B1). If the option is installed, this tab is displayed as first tab.
Page 145 ® System Settings R&S Connections Power Level ← Sensor Check Source tab Sets the power level for the output signal. Remote command: on page 366 SOURce:POWer[:VALue] on page 207 SOURce:UNIT:POWer Sensor Check Source Info ← Sensor Check Source tab The firmware of the R&S NRX includes a package for the sensor check source (R&S NRX-B1), but the sensor check source (R&S NRX-B1) is not updated automatically.
Page 146 ® System Settings R&S Connections Figure 11-4: Example Mode ← I/O 1, I/O 2 tabs Sets the functionality of the Out 1 / Trig Out and Trig In / Out 2 connectors. "Off" Disables the connector. "Analog Out" Available for continuous average, burst average, time gate, timeslot measurements.
Page 147 ® System Settings R&S Connections "Trigger Out" Available for the Out 1 / Trig Out BNC connector "I/O 1" tab. Provides a trigger signal at the Out 1 / Trig Out connector. Select the trigger source under Trigger Source for Trigger Output.
Page 148 ® System Settings R&S Connections on page 374 OUTPut:RECorder<output>:LIMit:UPPer:RATio:RLOSs on page 375 OUTPut:RECorder<output>:LIMit:UPPer:RATio:SWR on page 375 OUTPut:RECorder<output>:LIMit:UPPer:RATio[:VALue] on page 373 OUTPut:RECorder<output>:LIMit:UPPer[:VALue] Measurement for Limit Output ← I/O 1, I/O 2 tabs Available if Mode is set to: ● "Limit Violation" ●...
Page 149: Sensor Manager
® System Settings R&S Connections 11.1.4 Sensor Manager Access: [System] > "Connections" > "Sensor Manager" Helps you to manage power sensors, for example, if more than 4 power sensors are connected, or if you want to connect a LAN power sensor. The R&S NRX recognizes and adds the following power sensors: ●...
Page 150 ® System Settings R&S Connections The sensor manager gives access to: Sensor......................... 150 Sensor Info........................150 └ Sensor Test....................151 Add Sensor Adds a LAN power sensor. See "To add a LAN power sensor" on page 149. Remote command: on page 397 [SENSe<Sensor>:]ADD Sensor Info Access: [System] >...
Page 151 ® System Settings R&S Connections Remote command: on page 397 SYSTem:SENSor<Sensor>:INFO? Sensor Test ← Sensor Info Tap "Start Test" to start a selftest of the connected power sensor. The selftest provides detailed information that you can use for troubleshooting. "Test Verdict" Shows the status of the selftest.
Page 152: Instrument Info
® System Settings R&S Instrument Info 11.2 Instrument Info Access: [System] > "Instrument Info" For displaying information on a connected power sensor, see "Sensor Info" on page 150. On this tab, you display and configure the following settings: ● System Info......................
Page 153 ® System Settings R&S Instrument Info System Info......................... 153 Date and Time Settings....................154 └ Date......................154 └ Time......................154 └ Time Zone Region..................154 └ Time Zone.....................155 System Info Displays the information on the R&S NRX: ● "Manufacturer" ● "Type" ●...
Page 154 ® System Settings R&S Instrument Info Operating time of the R&S NRX Remote command: on page 399 SYSTem:INFO[:INFO]? on page 398 SYSTem:DID? on page 398 SYSTem:DEVice:ID? Date and Time Settings Opens the "Date and Time" dialog. Date ← Date and Time Settings Sets the date in the format YYYY-MM-DD.
Page 155: Security Settings
® System Settings R&S Instrument Info Time Zone ← Date and Time Settings Sets the time zone. Remote command: on page 401 SYSTem:TIME:DSTime:RULE on page 402 SYSTem:TIME:DSTime:RULE:CATalog? 11.2.2 Security Settings Access: [System] > "Instrument Info" > "Security" Contains the settings for access rights, LAN security and passwords. The "Security"...
Page 156 ® System Settings R&S Instrument Info Security Password to Unlock Settings ← General tab Enter the password that is required to enable the settings protected by a security pass- word. When you leave the "Security" dialog, the settings are disabled automatically. For default value and further information, see "Security Password tab"...
Page 157 ® System Settings R&S Instrument Info LAN Services ← LAN Settings tab Enables or disables the LAN services in general. If enabled, it provides remote access via all unlocked services. SCPI over LAN ← LAN Settings tab Enables or disables the access over LAN to control the R&S NRX remotely by using SCPI (standard commands for programmable instruments) commands.
Page 158: Option Settings
® System Settings R&S Instrument Info Old Password ← Security Password tab Currently used security password. The default password is 123456. Note: We recommend that you change the default password before connecting the R&S NRX to a network. The security password is required for changing security settings in the "Security" dia- log.
Page 159 ® System Settings R&S Instrument Info └ Import......................160 └ Export......................160 Details tab........................160 HW Options tab Displays the installed hardware options. Remote command: on page 178 *OPT? SW Options tab Displays all software options and their status. User Manual 1178.5566.02 ─ 07...
Page 160 ® System Settings R&S Instrument Info You can filter the displayed list by the following criteria: "Show Inactive Shows or hides inactive software options. These software options are On | Off" available in the firmware version but are not installed. "Show Deacti- Shows or hides deactivated software options.
Page 161: Help & Copyrights
® System Settings R&S Instrument Info If you want to see more information on a specific option, tap 11.2.4 Help & Copyrights Access: [System] > "Instrument Info" > "Help & Copyrights" Gives access to the user manual, open source acknowledgement and license informa- tion.
Page 162: Hardware Configuration
® System Settings R&S Hardware Configuration Export User Documentation to USB Stick..............162 Open Source Achnowledgement................162 Open Source Licenses....................162 LucasFonts RsCorpid EULA..................162 Export User Documentation to USB Stick Downloads the user manual to a connected USB stick. If no USB stick is connected, the file is saved to the volatile directory of the FTP directory.
Page 163: Test
® System Settings R&S Test Lists the hardware details of the R&S NRX assemblies. This tab can be useful for look- ing up the revision of hardware, for example when troubleshooting. 11.4 Test Access: [System] > "Test" On this tab, you can test whether the user interfaces are in working order and create information useful for troubleshooting.
Page 164: Global Settings
® System Settings R&S Global Settings Testing the user interfaces 1. Tap the test you want to perform. A dialog with detailed test instructions is displayed. 2. Read and follow the instructions. 3. Exit the test. Note: "Exit with PASS" only becomes available when the test is finished success- fully.
Page 165 ® System Settings R&S Global Settings On this tab, you configure the following settings: Visualize Non-Preset State..................165 Tabs Position.......................165 Hide Sensor Overload Message................. 165 Visualize Non-Preset State If enabled, a setting that differs from the preset value is indicated by a pencil symbol. The control elements in the hierarchies above that are leading to this setting are marked, too.
Page 166: Firmware Update
® Firmware Update R&S Firmware Update via PC and USB or Ethernet Connection 12 Firmware Update This chapter contains information on installing/updating the firmware on the R&S NRX. The latest firmware update files are available on our Internet site at www.rohde- schwarz.com.
Page 167: Preparing An Update
® Firmware Update R&S Firmware Update via PC and USB or Ethernet Connection 12.1.2 Preparing an Update To prepare an update via USB connection: 1. Make sure a recent VISA software is installed. Firmware update with PureFW can only be performed with the device recognized as a VISA device. 2.
Page 168: Updating The Application Firmware
® Firmware Update R&S Firmware Update via PC and USB or Ethernet Connection 3. Register the instrument as a VISA device. Refer to documentation of your VISA software for details. 12.1.3 Updating the Application Firmware To perform a firmware update: 1.
Page 169 ® Firmware Update R&S Firmware Update via PC and USB or Ethernet Connection b) If the instrument is connected to the network, enter the hostname or the IP address of the instrument in the field "Manually add a Raw SCPI Device" and then press "Check and Add"...
Page 170 ® Firmware Update R&S Firmware Update via PC and USB or Ethernet Connection The "Hostname or IP Address" field is not used during this procedure and should therefore be left empty. 4. In the "Firmware" field enter the full path and file name of the update file or press the ellipsis button to browse the file system for it.
Page 171: Firmware Update Via A Usb Flash Memory Stick
® Firmware Update R&S Firmware Update via a USB Flash Memory Stick 6. Check if the update was successful. This is the case if the firmware version in the "Identification" field is the same as the one you loaded in the "Firmware" field. 12.2 Firmware Update via a USB Flash Memory Stick This chapter contains information on installing/updating the firmware on the R&S NRX via a USB flash memory stick.
Page 172: Updating The Application Firmware
® Firmware Update R&S Firmware Update via a USB Flash Memory Stick 12.2.3 Updating the Application Firmware To perform a firmware update: 1. Connect the USB flash memory stick to the front or rear USB host port of the R&S NRX.
Page 173: Remote Control Commands
® Remote Control Commands R&S Common Commands 13 Remote Control Commands 13.1 Conventions Used in SCPI Command Descriptions Note the following conventions used in the remote command descriptions: ● Command usage If not specified otherwise, commands can be used both for setting and for querying parameters.
Page 174 ® Remote Control Commands R&S Common Commands ..........................175 &GTL ...........................175 &GTM ........................... 175 &GTR ........................... 175 &HFC ..........................175 &LLO .........................175 &NREN ..........................175 *CLS ..........................176 *DEV ..........................176 *DMC ..........................176 *EMC ..........................176 *ESE ...........................176 *ESR? .......................... 177 *GCLS ..........................177 *GMC? ........................177 *GOPC? ..........................
Page 175: Gtl
® Remote Control Commands R&S Common Commands Usage: Event &GET Group execute trigger Usage: Event &GTL Go to local Usage: Event &GTM Go to local with remote state Usage: Event &GTR Go to remote Usage: Event &HFC Hardware flow control Usage: Event &LLO...
Page 176: Dev
® Remote Control Commands R&S Common Commands ● EVENt part of the QUEStionable and the OPERation register ● Error/event queue The command does not change the ENABle and TRANsition parts of the registers. Usage: Event *DEV [<instrument_no>] Fixed value. Parameters: <instrument_no>...
Page 177: Gcls
® Remote Control Commands R&S Common Commands *GCLS Clears all status information in all internal "instruments". Usage: Event *GMC? <Label> Get macro content. Query parameters: <Label> Return values: <Macro> <dblock> Usage: Query only *GOPC? Analogon of *OPC? for all instruments in multichannel device. Return values: <gopc>...
Page 178: Lmc
® Remote Control Commands R&S Common Commands *LMC? List macro commands. Return values: <Label> Usage: Query only *OPC OPeration Complete Sets bit 0 in the event status register when all preceding commands have been execu- ted. This bit can be used to initiate a service request. *OPC must be sent at the end of a program message.
Page 179: Psc
® Remote Control Commands R&S Common Commands Parameters: <register> Range: 0 to 255 *RST: *PSC <psc> Writes/reads the power on status clear flag (PSC). Parameters: <psc> Power on status clear flag. *RCL <num> ReCaLl Recalls the instrument settings from the specified intermediate memory. Setting parameters: <number>...
Page 180: Sre
® Remote Control Commands R&S Common Commands Setting parameters: <number> Number of the intermediate memory Range: 0 to 19 *RST: Usage: Setting only Manual operation: "Save" on page 133 *SRE <register> Service Request Enable Sets the service request enable register to the specified value. This command deter- mines under which conditions a service request is triggered.
Page 181: Tst
® Remote Control Commands R&S Common Commands *TST? Selftest query Triggers a self test of the instrument and outputs an error code in decimal form. 0 indi- cates that no errors have occurred. Example: *TST? Query Response: Passed Example: *TST? Query Response: Failed Usage:...
Page 182: Addressing Measurements And Sensors
® Remote Control Commands R&S Addressing Measurements and Sensors *XSRE <xsre> Reads or writes the service request enable register. Used to enable service requests. Parameters: <xsre> <expr> Service request enable register (SRE). *XSTB? Reads the status byte. Return values: <xstb> <expr>...
Page 183: Starting And Ending A Measurement
® Remote Control Commands R&S Starting and Ending a Measurement If you use calculation functions that process the results of two power sensors, you assign a primary sensor and a secondary sensor. In CALCulate<Measurement>: MATH[:EXPRession], the position of the power sensor in the expression defines the power sensor as primary or secondary sensor.
Page 184 ® Remote Control Commands R&S Starting and Ending a Measurement ABORt<Measurement> Immediately interrupts the current measurement. If the measurement has been started as a single measurement (INITiate<Measurement>[:IMMediate]), the power sensor goes into the idle state. However, if a continuous measurement is in progress (INITiate<Measurement>:CONTinuous ON), the trigger system of the power sen- sor enters the waiting for trigger state, and if the trigger condition is met, a new mea-...
Page 185 ® Remote Control Commands R&S Starting and Ending a Measurement Ends the continuous measurement mode, and sets the power sensor to the idle state. *RST: INITiate<Undef>:ALL:CONTinuous <state> Applies to all connected power sensors. See INITiate<Measurement>: on page 184. CONTinuous Suffix: <Undef>...
Page 186: Measurement Settings And Results
® Remote Control Commands R&S Measurement Settings and Results INITiate<Measurement>[:IMMediate] Starts a single measurement cycle. The power sensor changes from the idle state to the waiting for trigger state. As soon as the trigger condition is fulfilled, the sensor begins the measurement. Depending on the number of trigger events that are required, e.g.
Page 187: Configuring Display And Results
® Remote Control Commands R&S Measurement Settings and Results Table 13-1: Assigned measurement panes and traces Measurement suffix Assigned measurement panes Assigned traces CALCulate<Measurement> WINDow<Window> CALC1 to CALC4 WIND1 to WIND4 CALC5 to CALC8 WIND1 to WIND4 Measurement pane 1 Measurement pane 2 Trace 1 Trace 2...
Page 188 ® Remote Control Commands R&S Measurement Settings and Results ......................191 DISPlay:ERRorlist ......................191 DISPlay:LAYout ..................191 DISPlay:MESSage:TEXT:CLEar ..................192 DISPlay:MESSage:TEXT[:DATA] ....................192 DISPlay:MESSage:TYPE ..................... 192 DISPlay:MESSage[:STATe] .................... 192 DISPlay:OVERload[:STATe] ......................193 DISPlay:PIXMap? ......................193 DISPlay:UPDate ................193 DISPlay[:WINDow<Window>][:STATe] ................193 DISPlay[:WINDow<Window>]:POSition ......................194 SYSTem:SPEed CALCulate<Measurement>:AVALue <value>...
Page 189 ® Remote Control Commands R&S Measurement Settings and Results STATistics | TABLe For statistics measurements Waveform or tabular format *RST: SDIGital Manual operation: "Display Format" on page 51 "Info / Marker" on page 75 "Graph / Table" on page 101 CALCulate<Measurement>:EXTRemes:RESet Saves the currently measured value as the new minimum and maximum values.
Page 190 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:HOLD[:STATe] <state> If enabled, displays the highest value measured for each point (pixel) of the selected display type. Alias: CALCulate<Measurement>:LIMit<undef>[:STATe] Suffix: <Measurement> 1 to 8 Measurement Parameters: <state> OFF | ON | RESet *RST: Manual operation: "Max Hold"...
Page 191 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Parameters: <resolution> I | OI | OOI | OOOI No decimal places, e.g. 1 dBm 1 decimal place, e.g. 0.1 dBm 2 decimal places, e.g. 0.01 dBm OOOI 3 decimal places, e.g.
Page 192 ® Remote Control Commands R&S Measurement Settings and Results Define the message text using DISPlay:MESSage:TEXT[:DATA]. Usage: Event DISPlay:MESSage:TEXT[:DATA] <string> Defines the text for user-defined messages. Parameters: <string> ASCII characters String "\n" causes a line break. The max. number of lines depends on the message type: 9 lines for messages and 7 lines for queries.
Page 193 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <state> OFF | ON | NEVer *RST: ON; but does not apply if NEVer is set. Manual operation: "Hide Sensor Overload Message" on page 165 DISPlay:PIXMap? Queries the display content. The return value is a binary block data, for example: #577110xxxxxx...x #577110 = block data header xxxxxx...x = binary format comprising an 8-bit BMP bitmap of the display content.
Page 194: Scaling
® Remote Control Commands R&S Measurement Settings and Results Parameters: <position> Range: 0 to 3 *RST: SYSTem:SPEed <mode> Changes the data processing speed. Parameters: <mode> NORMal | FAST | SLOW | FREeze FAST The display is switched off and the measured values are no lon- ger displayed, since the continuous update of the screen content requires computation time.
Page 195 ® Remote Control Commands R&S Measurement Settings and Results ..............205 DISPlay[:WINDow<Window>]:METer:LOWer ..............206 DISPlay[:WINDow<Window>]:ANALog:UPPer ..............206 DISPlay[:WINDow<Window>]:METer:UPPer ................. 206 [SENSe<Sensor>:]TRACe:OFFSet:TIME ..................206 [SENSe<Sensor>:]TRACe:TIME CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]:CCDF <value> Sets the lower limit for the CCDF bargraph display. Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel>...
Page 196 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <value> Range: 0.0 to 100.0 *RST: Default unit: pct Manual operation:...
Page 197 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Range: 0.0 to 1e18 *RST: Default unit: - Manual operation: "Scale Lower Limit" on page 52 "Forward Scale Lower Limit, Reflection Scale Lower Limit" on page 52 CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA]:RATio[: VALue] <value> Sets the lower limit for the power ratio bargraph display.
Page 198 ® Remote Control Commands R&S Measurement Settings and Results Manual operation: "Scale Lower Limit" on page 52 "Forward Scale Lower Limit, Reflection Scale Lower Limit" on page 52 CALCulate<Measurement>:METer<DirectionalChannel>:UPPer[:DATA]:CCDF <value> Sets the upper limit for the CCDF bargraph display. Suffix: <Measurement>...
Page 199 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel> 1 to 2 1 = primary sensor, 2 = secondary sensor or Parameters: <value> Range: 0.0 to 100.0 *RST: 100.0 Default unit: pct Manual operation: "Scale Upper Limit"...
Page 200 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Range: 0.0 to 1e18 *RST: Default unit: - Manual operation: "Scale Upper Limit" on page 52 "Forward Scale Upper Limit, Reflection Scale Upper Limit" on page 53 CALCulate<Measurement>:METer<DirectionalChannel>:UPPer[:DATA]:RATio[: VALue] <value> Sets the upper limit for the power ratio bargraph display.
Page 201 ® Remote Control Commands R&S Measurement Settings and Results Manual operation: "Scale Upper Limit" on page 52 "Forward Scale Upper Limit, Reflection Scale Upper Limit" on page 53 CALCulate<Measurement>:TRACe:X[:SCALe]:LEFT <value> Defines the position of the left screen edge relative to the delayed trigger. The value can be negative so that signal components are displayed before the trigger event.
Page 202 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DBM <value> Effective for trace, pulse analysis, time gate, timeslot measurements. Sets the power level range. Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: 0.005 to 400.0 *RST: 50.0 Default unit: dBm Manual operation: "Power Span"...
Page 203 ® Remote Control Commands R&S Measurement Settings and Results Sets the power level range without unit. Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: 0.005 to 2e18 *RST: 10.0 Default unit: - Manual operation: "Power Span" on page 54 CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:WATT <value>...
Page 204 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: -200.0 to 200.0 *RST: Default unit: dBm Manual operation: "Power Reference" on page 54 CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:DBUV <value> Effective for trace, pulse analysis, time gate, timeslot measurements. Sets the power reference value.
Page 205 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: -1e18 to 1e18 *RST: 10.0 Default unit: - Manual operation: "Power Reference" on page 54 CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:WATT <value> Effective for trace, pulse analysis, time gate, timeslot measurements. Sets the power reference value.
Page 206 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Depends on the current output unit of the measured value. Range: 1e-18 W to1e18 W; -150 DBM to 210 DBM; PCT: 1e-18 PCT to 1e22 PCT; -200 DB to 200 DB DISPlay[:WINDow<Window>]:ANALog:UPPer <value>...
Page 207: Units
® Remote Control Commands R&S Measurement Settings and Results 13.5.1.3 Units If you enter a value that is expressed in a certain unit, for example Hz, you can omit the unit. Then, the default unit provided in the remote command description is used. If you need decimal multiples and submultiples of a unit, you can use SCPI prefixes, see "Units"...
Page 208 ® Remote Control Commands R&S Measurement Settings and Results UNIT<Measurement>:POWer:RATio <unit> Sets the output unit for the measured power ratio values. For NRT measurements, sets the unit of the relative forward power measurement. Suffix: <Measurement> 1 to 8 Measurement Parameters: <unit>...
Page 209: Limits
® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Parameters: <state> OFF | ON *RST: UNIT<Measurement>:POWer[:VALue] <unit> Sets the output unit for the measured power values. For NRT measurements, sets the unit of the absolute forward power measurement. Suffix: <Measurement>...
Page 210 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:LIMit<undef>:CLEar:AUTO <mode> If enabled, automatically resets the limit monitoring state and the internal counter for limit violations if one of the following commands is executed: ● INITiate<Measurement>[:IMMediate] ● INITiate<Measurement>:CONTinuous ● MEASure<Measurement>... query ●...
Page 211 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:LIMit<undef>:FCOunt? Queries the number of limit violations. The counter is reset if one of the following events occurs: ● R&S NRX is switched on. ● Reset is performed (*RST). ● is execu- CALCulate<Measurement>:LIMit<undef>:CLEar[:IMMediate] ted.
Page 212 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:RATio: RCOefficient <value> Sets the lower limit for the reflection coefficient. Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <value>...
Page 213 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Range: -200.0 to 200.0 *RST: -200.0 Default unit: dB Manual operation: "Lower Limit" on page 56 "Forward Lower Limit, Reflection Lower Limit" on page 57 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:RATio: SWR <value> Sets the lower limit for the standing wave ratio (SWR). Suffix: <Measurement>...
Page 214 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:POWer <value> Sets the lower limit for the measured power values. If you enter a value without unit, the unit is defined by UNIT<Measurement>: POWer[:VALue]. For further information, see Chapter 13.5.1.3, "Units", on page 207.
Page 215 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Manual operation: "Upper Limit" on page 57 "Forward Upper Limit, Reflection Upper Limit" on page 58 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:CCDF <value> Sets the upper limit for the complementary cumulative distribution function (CCDF). Suffix: <Measurement>...
Page 216 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <value> Range: 0.0 to 100.0 *RST: 100.0 Default unit: pct...
Page 217 ® Remote Control Commands R&S Measurement Settings and Results Manual operation: "Upper Limit" on page 57 "Forward Upper Limit, Reflection Upper Limit" on page 58 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:RATio[: VALue] <value> Sets the upper limit for the measured power ratios. If you enter a value without unit, the unit is defined by UNIT<Measurement>:POWer: RATio.
Page 218: Result Formats And Screenshots
® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer:STATe <state> Enables or disables the monitoring function for the upper limit. Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel> 1 to 2 1 = primary sensor, 2 = secondary sensor or Parameters: <state>...
Page 219: Configuring The Trigger
® Remote Control Commands R&S Measurement Settings and Results <arg1> <ASCii[,0 to 12]> Readable value. The digit defines the number of decimal places. If more values are output, they are separated by commas. Example: -2.279610E+01 *RST: ASCii,0 The reset value 0 does not restrict the number of decimal pla- ces.
Page 220 ® Remote Control Commands R&S Measurement Settings and Results .................221 TRIGger<undef>:ALL:DELay:AUTO ..........221 TRIGger<Measurement>[:CHANnel<Channel>]:DELay:AUTO ................222 TRIGger<undef>:ALL:DELay[:VALue] ......... 222 TRIGger<Measurement>[:CHANnel<Channel>]:DELay[:VALue] ...................222 TRIGger<undef>:ALL:DTIMe ............222 TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe ....... 222 TRIGger<Measurement>[:CHANnel<Channel>]:EXTernal<Port>:IMPedance ..................223 TRIGger<undef>:ALL:HOLDoff ...........223 TRIGger<Measurement>[:CHANnel<Channel>]:HOLDoff ................... 223 TRIGger<undef>:ALL:HYSTeresis ..........223 TRIGger<Measurement>[:CHANnel<Channel>]:HYSTeresis .........224 TRIGger<Measurement>[:CHANnel<Channel>]:JITTer:METHod ....................224 TRIGger<undef>:ALL:LEVel ............224 TRIGger<Measurement>[:CHANnel<Channel>]:LEVel ...................225...
Page 221 ® Remote Control Commands R&S Measurement Settings and Results TRIGger<undef>:ALL:COUNt <count> TRIGger<Measurement>[:CHANnel<Channel>]:COUNt <count> Sets the number of measurement cycles to be performed when the measurement is started using INITiate<Measurement>[:IMMediate]. This number equals the number of results that can be obtained from the sensor after a single measurement.
Page 222 ® Remote Control Commands R&S Measurement Settings and Results TRIGger<undef>:ALL:DELay[:VALue] <delay> TRIGger<Measurement>[:CHANnel<Channel>]:DELay[:VALue] <delay> Sets the delay between the trigger event and the beginning of the actual measurement. The command is not fully R&S NRP2 compatible. If port 1 is assigned to measure- ment 1 and so on, the command works.
Page 223 ® Remote Control Commands R&S Measurement Settings and Results Sets the termination resistance of the external trigger signal that is supplied at the trig- ger input/output of the power sensor. Choose a setting that fits the impedance of the trigger source to minimize reflections on the trigger signals. Suffix: <Measurement>...
Page 224 ® Remote Control Commands R&S Measurement Settings and Results Thus, you can use this setting to eliminate the effects of noise in the signal for the edge detector of the trigger system. The command is not fully R&S NRP2 compatible. If port 1 is assigned to measure- ment 1 and so on, the command works.
Page 225 ® Remote Control Commands R&S Measurement Settings and Results The command is not fully R&S NRP2 compatible. If port 1 is assigned to measure- ment 1 and so on, the command works. If port 1 is assigned to measurement 2, for example, enable the R&S NRP2 emulation using SYSTem:LANGuage "NRP2".
Page 226 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <port> INTernal | EXT2 | EXTernal2 *RST: INTernal Manual operation: "Trigger Master Port" on page 65 TRIGger<Measurement>[:CHANnel<Channel>]:MASTer[:STATe] <state>...
Page 227 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <slope> POSitive | NEGative *RST: POSitive Manual operation: "Slope" on page 63 TRIGger<undef>:ALL:SOURce <source>...
Page 228: Selecting The Measurement
® Remote Control Commands R&S Measurement Settings and Results Parameters: <port> INTernal | EXT2 | EXTernal2 *RST: INTernal Manual operation: "Trigger Synchronize Port" on page 65 TRIGger<undef>:ALL:SYNChronize[:STATe] <state> TRIGger<Measurement>[:CHANnel<Channel>]:SYNChronize[:STATe] <state> Usually used if TRIGger<Measurement>[:CHANnel<Channel>]:MASTer[: ON is set. STATe] If enabled, blocks the external trigger bus as long as the power sensor remains in the measurement state.
Page 229 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>[:CHANnel<Channel>]:FEED<Channel> "<string>" Determines the data that are processed. The parameters depend on the measurement type. The power sensor averages every measured value using a series of samples. If a RANDom feed is selected, the power sensor takes a random value from the samples and forwards it to the R&S NRX as a measured value.
Page 230 ® Remote Control Commands R&S Measurement Settings and Results Measurement type "<string>" Measured value NRT, absolute POWer:FORWard:AVERage Average power Forward direction POWer:FORWard:PEP Peak power of an amplitude-modulated signal POWer:ABSorption:AVERage Absorbed average power POWer:ABSorption:PEP Absorbed peak envelope power (PEP) POWer:FORWard:AVERage:BURSt Average power within a burst POWer:ABSorption:AVERage: BURSt Absorbed burst average...
Page 231 ® Remote Control Commands R&S Measurement Settings and Results Manual operation: "Statistics Function" on page 102 "Average" on page 108 "CCDF" on page 108 "Peak Envelope Power (PEP)" on page 108 "Absorption Average" on page 108 "Crest Factor (CF)" on page 109 "Absorption PEP"...
Page 232: Selecting The Power Sensor
® Remote Control Commands R&S Measurement Settings and Results RNDMax Randomly selected samples are transmitted. All evaluations use these values instead of the average values. *RST: NONE 13.5.4 Selecting the Power Sensor Further information: ● Chapter 6.4, "Measurement Settings Dialog", on page 66 ...................
Page 233: Relative Measurements
® Remote Control Commands R&S Measurement Settings and Results 1 to 4 Sensor connector A, B, C, D 4 to 100 USB connector Optional connector: sensor interface for R&S NRT (R&S NRX- 102 to 128 LAN interface Range: 0 to 128 *RST: Manual operation: "Primary Sensor, Secondary Sensor"...
Page 234 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel> 1 to 2 1 = forward, 2 = reflection (reverse) Parameters: <state> OFF | ONCE *RST: Manual operation: "Relative Measurements" on page 72 CALCulate<Measurement>:RELative<DirectionalChannel>:STATe <state> Allows you to relate measured power or a power ratio to a reference value.
Page 235: Continuous Average
® Remote Control Commands R&S Measurement Settings and Results [SENSe<Sensor>:]POWer:REFerence <ref> Sets the reference value for the relative power indication. If you enter a value without unit, the unit is defined by [SENSe<Sensor>:]UNIT: POWer[:VALue]. For further information, see Chapter 13.5.1.3, "Units", on page 207.
Page 236 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only [SENSe<Sensor>:][POWer:][AVG:]BUFFer:INFO? [<ITEM>]...
Page 237: Trace
® Remote Control Commands R&S Measurement Settings and Results Parameters: <state> ON | OFF *RST: 13.5.7 Trace Further information: ● Chapter 7.3, "Trace", on page 74 13.5.7.1 Trace Measurement Settings In a trace measurement, you can use commands that combine several setting com- mands.
Page 238: Combining Trace Commands
® Remote Control Commands R&S Measurement Settings and Results [SENSe<Sensor>:]TRACe:REALtime <state> Effective for trace measurements. If disabled, each measurement from the power sensor is averaged. If enabled, only one sampling sequence per measurement is recorded, thus increasing the measure- ment speed. With a higher measurement speed, the measured values of an individual measurement are immediately delivered.
Page 239 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Query parameters: <scope_size> <expr> <capture_time> Default unit: s <source_list> <expr> Usage: Query only CONFigure<Measurement>:XTIMe[:POWer]:NONE <scope_size>, <capture_time>, <source_list> Disables trace 2. In contrast, trace 1 is always active. The used parameters are described in "Parameter list"...
Page 240: Using Markers
® Remote Control Commands R&S Measurement Settings and Results Usage: Query only 13.5.7.3 Using Markers .........240 CALCulate<Measurement>:TRACe:MARKer<Marker>:XDELta? .........240 CALCulate<Measurement>:TRACe:MARKer<Marker>:YDELta? ........241 CALCulate<Measurement>:TRACe:MARKer<Marker>:YPOSition? ........241 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:FEED:INDex ........241 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:FUNCtion .........242 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:MODE ......242 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:MODE ....243 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:POWer:DBM ....244 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:POWer:DBUV ..244 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:RELative:POWer:DB ... 244 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:POWer:RATio:DB ..
Page 241 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:TRACe:MARKer<Marker>:YPOSition? Queries the position of a marker on the power axis. Suffix: <Measurement> 1 to 8 Measurement <Marker> 1 to 4 Marker (M1 to M4) Usage: Query only DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:FEED:INDex <index> Effective if DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:MODE MEASure is set.
Page 242 ® Remote Control Commands R&S Measurement Settings and Results <Marker> 1 to 4 Marker (M1 to M4) Parameters: <function> POWer | RPOWer | RTIMe | RPAVerage POWer Measures the power of the trace. RPOWer Measures the power ratio in relation to the reference marker. RTIMe Measures the time difference in relation to the reference marker.
Page 243 ® Remote Control Commands R&S Measurement Settings and Results <Marker> 1 to 4 Marker (M1 to M4) Parameters: <mode> FTIMe | FPOWer | RPOSition | RPOWer | RPLeft | RPRight | PSEarch | MSEarch | RPSLeft | RPSRight | RMSLeft | RMSRight FTIMe At a fixed time, set by the marker position.
Page 244 ® Remote Control Commands R&S Measurement Settings and Results <Marker> 1 to 4 Measurement pane Parameters: <power> Range: -200.0 to 200.0 *RST: Default unit: dBm Manual operation: "Position" on page 78 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:POWer:DBUV <power> Sets an absolute power value for the marker position defined under DISPlay[: on page 242.
Page 245 ® Remote Control Commands R&S Measurement Settings and Results DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:RELative: POWer:DPCT <power> DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:POWer:RATio: DPCT <power> Sets an absolute or relative value for the marker position defined under DISPlay[: on page 242. WINDow<Window>]:TRACe:MARKer<Marker>:POSition:MODE Suffix: <Window> 1 to 4 Measurement pane <Marker> 1 to 4 Measurement pane Parameters:...
Page 246 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Window> 1 to 4 Measurement pane <Marker> 1 to 4 Marker (M1 to M4) Parameters: <power> Range: -100e-3 to 1e12 *RST: 1e-3 Default unit: W Manual operation: "Position" on page 78 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:RELative:TIME <time>...
Page 247: Pulse Analysis
® Remote Control Commands R&S Measurement Settings and Results DISPlay[:WINDow<Window>]:TRACe:MARKer<Undef>:SELection <markerNo> Shows the selected marker in the trace. Suffix: <Window> 1 to 4 Measurement pane <Undef> 1 to n No suffix required. Parameters: <markerNo> NONE | M1 | M2 | M3 | M4 *RST: NONE Manual operation:...
Page 248 ® Remote Control Commands R&S Measurement Settings and Results ....257 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:MAXimum[:STATe] ....257 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:MINimum[:STATe] .... 258 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:BASE[:STATe] .. 258 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:HREFerence[:STATe] ...258 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:LREFerence[:STATe] ....259 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:TOP[:STATe] .....259 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:DCYCle[:STATe] ....259 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:DURation[:STATe] ..... 260 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:PERiod[:STATe] ....260 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:RESolution[:STATe] ....260 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:SEParation[:STATe] ........261 DISPlay[:WINDow<Window>]:TRACe:MEASurement:RRELation .........261...
Page 249 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> *RST: [SENSe<Sensor>:]TRACe:MEASurement:OFFSet:TIME <value> Sets the start time of the pulse analysis, referenced to delay set by TRIGger<Measurement>[:CHANnel<Channel>]:DELay[:VALue]. By default, the parameters of the first detected pulse are determined. Using this com- mand, you can determine parameters of another pulse.
Page 250 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <time> Range: 0.0 to 30.0 *RST: 0.01 Default unit: s CALCulate<Measurement>:TRACe:MEASurement:ALGorithm <value> Effective for pulse analysis measurements. Sets the analysis algorithm for detecting the pulse top and the pulse base power of a pulsed signal.
Page 251 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Range: 0.0 to 100.0 *RST: 90.0 Default unit: pct Manual operation: "High Reference Level" on page 88 CALCulate<Measurement>:TRACe:MEASurement:DEFine:TRANsition: LREFerence <value> Effective for pulse analysis measurements. Defines the start of the rising edge and the end of the falling edge of the pulse. Used for the measurement of the rise or fall time.
Page 252 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:TRACe:MEASurement:POWer:LREFerence? Effective for pulse analysis measurements. Queries the power level at low reference level set by CALCulate<Measurement>: TRACe:MEASurement:DEFine:TRANsition:LREFerence. Suffix: <Measurement> 1 to 8 Measurement Usage: Query only Manual operation: "Low Ref." on page 86 CALCulate<Measurement>:TRACe:MEASurement:POWer:MAX? Effective for pulse analysis measurements.
Page 253 ® Remote Control Commands R&S Measurement Settings and Results Usage: Query only Manual operation: "Pulse Base" on page 86 CALCulate<Measurement>:TRACe:MEASurement:POWer:PULSe:TOP? Effective for pulse analysis measurements. Queries the pulse top power level detected by the selected CALCulate<Measurement>:TRACe:MEASurement:ALGorithm. This value is used as a reference (100 %) to determine other parameter values such as the rising or falling thresholds.
Page 254 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Usage: Query only Manual operation: "Pulse Width" on page 82 CALCulate<Measurement>:TRACe:MEASurement:PULSe:PERiod? Effective for pulse analysis measurements. Queries the time between two consecutive edges of the same polarity in seconds. Dur- ing this time, the pulse signal completes one cycle.
Page 255 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:TRACe:MEASurement:TRANsition:NEGative: OCCurrence? Effective for pulse analysis measurements. Queries the time when the signal passes through the medial reference power level with falling edge, referenced to the delayed trigger event. Indicates the stop point of the first power pulse within the analysis window.
Page 256 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:TRACe:MEASurement:TRANsition:POSitive: OCCurrence? Effective for pulse analysis measurements. Queries the time when the signal passes through the medial reference power level with rising edge, referenced to the delayed trigger event. Indicates the start point of the first power pulse within the analysis window.
Page 257: Display[:Window]:Trace:measurement:power:maximum[:State]
® Remote Control Commands R&S Measurement Settings and Results DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:AVG[:STATe] <value> Effective for pulse analysis measurements. Enables or disables the display of the average signal power. See on page 251. CALCulate<Measurement>:TRACe:MEASurement:POWer:AVG? Suffix: <Window> 1 to 4 Measurement pane Parameters: <value> *RST: Manual operation: "Trace Avg"...
Page 258: Display[:Window]:Trace:measurement:power:pulse:base[:State]
® Remote Control Commands R&S Measurement Settings and Results DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:BASE[: STATe] <value> Effective for pulse analysis measurements. Enables or disables the display of the pulse base power. See CALCulate<Measurement>:TRACe:MEASurement:POWer:PULSe:BASE? on page 252. Suffix: <Window> 1 to 4 Measurement pane Parameters: <value>...
Page 259: Display[:Window]:Trace:measurement:power:pulse:top[:State]
® Remote Control Commands R&S Measurement Settings and Results DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:TOP[:STATe] <value> Effective for pulse analysis measurements. Enables or disables the display of the pulse top power. See CALCulate<Measurement>:TRACe:MEASurement:POWer:PULSe:TOP? on page 253. Suffix: <Window> 1 to 4 Measurement pane Parameters: <value> *RST: Manual operation: "Pulse Top"...
Page 260: Display[:Window]:Trace:measurement:pulse:period[:State]
® Remote Control Commands R&S Measurement Settings and Results DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:PERiod[:STATe] <value> Effective for pulse analysis measurements. Enables or disables the display of the time that the pulse signal needs to complete one cycle. See CALCulate<Measurement>:TRACe:MEASurement:PULSe:PERiod? on page 254. Suffix: <Window> 1 to 4 Measurement pane Parameters:...
Page 261: Display[:Window]:Trace:measurement:rrelation
® Remote Control Commands R&S Measurement Settings and Results DISPlay[:WINDow<Window>]:TRACe:MEASurement:RRELation <refRelation> Selects whether the reference levels are voltage-related or power-related. Suffix: <Window> 1 to 4 Measurement pane Parameters: <refRelation> POWer | VOLTage *RST: POWer Manual operation: "Reference Levels relate to" on page 87 DISPlay[:WINDow<Window>]:TRACe:MEASurement:SELection <traceNo>...
Page 262: Overshoot[:State]
® Remote Control Commands R&S Measurement Settings and Results Suffix: <Window> 1 to 4 Measurement pane Parameters: <value> *RST: Manual operation: "Stop Time" on page 84 DISPlay[:WINDow<Window>]:TRACe:MEASurement:TRANsition:NEGative: OVERshoot[:STATe] <value> Effective for pulse analysis measurements. Enables or disables the display of the relative amount of negative overshoot. See CALCulate<Measurement>:TRACe:MEASurement:TRANsition:NEGative: on page 255.
Page 263: Time Gate
® Remote Control Commands R&S Measurement Settings and Results Suffix: <Window> 1 to 4 Measurement pane Parameters: <value> *RST: Manual operation: "Start Time" on page 83 DISPlay[:WINDow<Window>]:TRACe:MEASurement:TRANsition:POSitive: OVERshoot[:STATe] <value> Effective for pulse analysis measurements. Enables or disables the display of the relative amount of positive overshoot. See CALCulate<Measurement>:TRACe:MEASurement:TRANsition:POSitive: on page 256.
Page 264 ® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Range: 0.0 to 15.0 *RST: Default unit: s Manual operation: "Length of Gate" on page 93 CALCulate<Measurement>[:POWer]:TGATe<Gate>[:AVG]:TIME <value> Sets the start time of the gate. Suffix: <Measurement> 1 to 8 Measurement <Gate>...
Page 265: Timeslot
® Remote Control Commands R&S Measurement Settings and Results <Gate> 1 to 4 Time gate Parameters: <value> Range: 0.0 to 0.1 *RST: Default unit: s Manual operation: "Start of Fence" on page 93 CALCulate<Measurement>[:POWer]:TGATe<Gate>[:AVG][:EXCLude]:MID[:STATe] <value> Enables or disables an exclusion interval for the selected gate. This exclusion interval is called fence.
Page 266 ® Remote Control Commands R&S Measurement Settings and Results ..........266 CALCulate<Measurement>:TSLot:TIMing:EXCLude:STARt ..........266 CALCulate<Measurement>:TSLot:TIMing:EXCLude:STOP ..........266 CALCulate<Measurement>[:POWer]:TSLot[:AVG]:COUNt ..........267 CALCulate<Measurement>[:POWer]:TSLot[:AVG]:SELection ..........267 CALCulate<Measurement>[:POWer]:TSLot[:AVG]:WIDTh ....267 CALCulate<Measurement>[:POWer]:TSLot[:AVG][:EXCLude]:MID:OFFSet[:TIME] ......267 CALCulate<Measurement>[:POWer]:TSLot[:AVG][:EXCLude]:MID:TIME ......268 CALCulate<Measurement>[:POWer]:TSLot[:AVG][:EXCLude]:MID[:STATe] CALCulate<Measurement>:TSLot:TIMing:EXCLude:STARt <value> Defines an interval at the start of the timeslot that is excluded from the measurement. Suffix: <Measurement>...
Page 267 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>[:POWer]:TSLot[:AVG]:SELection <value> Selects a timeslot for the measurement. Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: 1 to 128 *RST: Manual operation: "Timeslot" on page 96 CALCulate<Measurement>[:POWer]:TSLot[:AVG]:WIDTh <value> Sets the length of the timeslot. Suffix: <Measurement>...
Page 268: Statistics
® Remote Control Commands R&S Measurement Settings and Results Parameters: <value> Range: 0.0 to 0.1 *RST: Default unit: s Manual operation: "Start of Fence" on page 99 CALCulate<Measurement>[:POWer]:TSLot[:AVG][:EXCLude]:MID[:STATe] <value> Enables or disables an exclusion interval in the timeslots. This exclusion interval is called fence.
Page 269 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only [SENSe<Sensor>:]STATistics:OFFSet[:TIME] <time>...
Page 270 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:STATistics:APERture <value> Effective for statistics measurements. Sets the width of the sampling window for unsynchronized acquisition, that is if 0 is set. CALCulate<Measurement>:STATistics:TGATe:SELection Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: 10e-6 to 10.0 *RST:...
Page 271: Combining Statistics Commands
® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Continuous 1 - 4 Gate number Range: 0 to 4 *RST: Manual operation: "Evaluate" on page 106 13.5.11.2 Combining Statistics Commands Parameter list For the calculation functions of the statistics measurement, the following parameters are used.
Page 272: Scaling
® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement Query parameters: <statistics_size> <expr> <capture_time> Default unit: s <source_list> <expr> Usage: Query only CONFigure<Measurement>:STATistics:PDF? <statistics_size>, <capture_time>, <source_list> FETCh<Measurement>:STATistics:PDF? <statistics_size>, <capture_time>, <source_list> READ<Measurement>:STATistics:PDF? <statistics_size>, <capture_time>, <source_list> MEASure<Measurement>:STATistics:PDF? <statistics_size>, <capture_time>, <source_list>...
Page 273 ® Remote Control Commands R&S Measurement Settings and Results [SENSe<Sensor>:]STATistics:SCALe:X:MPWidth? Queries the greatest level resolution that can be attained. If the value is exceeded, a settings conflict occurs, due to the following reasons: ● Number of pixels that has been selected is too great, see on page 275.
Page 274 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:STATistics[:CDF][:SCALe]:Y[:LINear]:PDIVision <value> Effective if CALCulate<Measurement>:STATistics[:SCALe]:Y:SPACing is set. Sets the scaling of the y-axis for CDF statistics measurements. Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: 0.001 to 20.0 *RST: 20.0 Default unit: pct Manual operation: "Y / div"...
Page 275 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:STATistics[:SCALe]:X:POINts <value> Effective for statistics measurements. Sets the measurement result resolution. It specifies the number of pixels that are assigned to the logarithmic level range for measured value output. The width of the level range divided by N–1, where N is the number of pixels, must not be less than the smallest level resolution.
Page 276 ® Remote Control Commands R&S Measurement Settings and Results Sets the lower limit of the level range for the analysis result. This level is assigned to the first pixel. The level assigned to the last pixel is equal to the level of the first pixel plus the level range.
Page 277: Using Markers
® Remote Control Commands R&S Measurement Settings and Results 13.5.11.4 Using Markers ........277 CALCulate<Measurement>:STATistics[:CDF]:MARKer:Y:POSition ........277 CALCulate<Measurement>:STATistics:MARKer:HORizontal:DATA? ......277 CALCulate<Measurement>:STATistics:MARKer:VERTical:DATA[:POWer]? ....... 278 CALCulate<Measurement>:STATistics:MARKer:X:POSition[:ABSolute] ......... 278 CALCulate<Measurement>:STATistics:MARKer:X:POSition:RELative ........278 CALCulate<Measurement>:STATistics:PDF:MARKer:Y:POSition CALCulate<Measurement>:STATistics[:CDF]:MARKer:Y:POSition <value> Positions the y-marker to a measurement value of the CDF statistics measurement. Suffix: <Measurement>...
Page 278 ® Remote Control Commands R&S Measurement Settings and Results Usage: Query only CALCulate<Measurement>:STATistics:MARKer:X:POSition[:ABSolute] <value> Effective for statistics measurements. Sets the absolute position of the x-marker. Suffix: <Measurement> 1 to 8 Measurement Parameters: <value> Range: -200.0 to 200.0 *RST: Default unit: dBm Manual operation: "[dBm] / [dB] marker"...
Page 279: Nrt
® Remote Control Commands R&S Measurement Settings and Results 13.5.12 NRT Further information: ● Chapter 7.8, "NRT", on page 106 CALCulate<Measurement>:RELative<DirectionalChannel>:STATe on page 234 ........279 CALCulate<Measurement>:RELative<DirectionalChannel>:CCDF ....280 CALCulate<Measurement>:RELative<DirectionalChannel>:POWer[:MAGNitude] ....280 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:RCOefficient ......280 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:RFRatio ......281 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:RLOSs ......281 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:SWR ....282 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio[:MAGNitude]...
Page 280 ® Remote Control Commands R&S Measurement Settings and Results CALCulate<Measurement>:RELative<DirectionalChannel>:POWer[:MAGNitude] <value> Sets the reference value for relative ratio measurements. If you enter a value without unit, the unit is defined by UNIT<Measurement>: POWer[:VALue]. For further information, see Chapter 13.5.1.3, "Units", on page 207.
Page 281 ® Remote Control Commands R&S Measurement Settings and Results Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <value> Range: 0.0 to 100.0 *RST: 50.0 Default unit: pct...
Page 282 ® Remote Control Commands R&S Measurement Settings and Results Manual operation: "Forward Reference Value, Reflection Reference Value" on page 55 "Reference Value" on page 71 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio[:MAGNitude] <value> Sets the reference value for relative ratio measurements. Suffix: <Measurement> 1 to 8 Measurement <DirectionalChannel>...
Page 283 ® Remote Control Commands R&S Measurement Settings and Results <Channel> 1 to 2 1 = forward, 2 = reflection (reverse) Usage: Event [SENSe<Sensor>:]FUNCtion:OFF[:FUNC] <function> Requires the sensor interface for R&S NRT (R&S NRX-B9). Disables the specified measurement function. The query returns all disabled measurement functions. Suffix: <Sensor>...
Page 284 ® Remote Control Commands R&S Measurement Settings and Results [SENSe<Sensor>:]POWer:REFLection:RANGe:LIMit:DETect <value> [SENSe<Sensor>:]POWer[:POWer]:RANGe:LIMit:DETect <value> Effective if the Out 1 / Trig Out connector is configured as monitoring output for the power indication, for example using [SENSe<Sensor>:]POWer[:POWer]:RANGe: LIMit[:STATe] Defines when a logic high level (> 2.7 V) is output at the Out 1 / Trig Out connector. Suffix: <Sensor>...
Page 285 ® Remote Control Commands R&S Measurement Settings and Results The entry has no unit. The unit corresponds to the output unit selected by or UNIT<Measurement>:POWer:RATio. UNIT<Measurement>:POWer[:VALue] If you change the unit, the entered value remains the same. Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ...
Page 286: Querying Measurement Results
® Remote Control Commands R&S Measurement Settings and Results 13.5.13 Querying Measurement Results ...............286 CALCulate<Measurement>:COUNt:DATA? .................. 286 CALCulate<Measurement>:DATA? ..............286 CALCulate<Measurement>:MAXimum:DATA? ..............286 CALCulate<Measurement>:MINimum:DATA? ................286 CALCulate<Measurement>:MEAN:DATA? ..............287 CALCulate<Measurement>:PTPeak:DATA? ..............287 CALCulate<Measurement>:SDEViation:DATA? CALCulate<Measurement>:COUNt:DATA? Queries the number of measured values that are included for the calculation of the mean value and standard deviation.
Page 287: Calculation Functions
® Remote Control Commands R&S Calculation Functions CALCulate<Measurement>:PTPeak:DATA? Queries the peak-to-peak distance (maximum to minimum) of the measured values. Suffix: <Measurement> 1 to 8 Measurement Usage: Query only CALCulate<Measurement>:SDEViation:DATA? Queries the standard deviation of all measured values. The standard deviation is cal- culated and reset together with the mean value, CALCulate<Measurement>:MEAN: DATA?.
Page 288 ® Remote Control Commands R&S Calculation Functions Table 13-4: <expression> parameters for relative power measurements Channel calculation func- <expression> Description tion Ratio "(SENSn/SENSm)" Quotient of the values measured by sen- sor n and sensor m Standing wave ratio "SWR(SENSn,SENSm)" Standing wave ratio. No output unit. SENSm/SENSn SENSm/SENSn Sensor n measures the forward power of a...
Page 289: Using A Calculation Function
® Remote Control Commands R&S Calculation Functions Parameters: <expression> Table 13-3 Table 13-4. The unit is set by UNIT<Measurement>:POWer[:VALue] UNIT<Measurement>:POWer:RATio. The query returns two additional expressions, see Table 13-5. *RST: Depends on the selected channel. Default unit: Depends on <expression> and the set unit. Manual operation: "Channel Calculation Function"...
Page 290: Continuous Average Calculation Functions
® Remote Control Commands R&S Calculation Functions 13.6.2.1 Continuous Average Calculation Functions Parameter list For the calculation functions of the continuous average measurement, the following parameters are used. ● <expected_value> Optional. Value that is expected for the measurement. ● <resolution> Optional.
Page 291 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer][:AVG]:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer][:AVG]:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]. Relative power measured by one power sensor. The used parameters are described in "Parameter list" on page 290. Suffix: <Measurement> 1 to 8 Measurement Query parameters: <expected_value_or_source_list>...
Page 292 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer][:AVG]:DIFFerence:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer][:AVG]:DIFFerence:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]. Relative difference measured by two power sensors. The used parameters are descri- bed in "Parameter list" on page 290. Suffix: <Measurement> 1 to 8 Measurement Query parameters: <expected_value_or_source_list>...
Page 293 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer][:AVG]:SUM:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer][:AVG]:SUM:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]. Relative sum measured by two power sensors. The used parameters are described in "Parameter list" on page 290. Suffix: <Measurement> 1 to 8 Measurement Query parameters: <expected_value_or_source_list>...
Page 294 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer][:AVG]:RATio:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer][:AVG]:RATio:RELative? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]. Relative ratio measured by two power sensor. The used parameters are described in "Parameter list" on page 290. Suffix: <Measurement> 1 to 8 Measurement Query parameters: <expected_value_or_source_list>...
Page 295 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer][:AVG]:REFLection? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer][:AVG]:REFLection? [<expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession] "REFL(SENSn,SENSm)". Reflection coefficient/transmission factor of a DUT, measured by two power sensors. The used parameters are described in "Parameter list" on page 290. Suffix: <Measurement>...
Page 296: Continuous Average Calculation Functions With Buffering
® Remote Control Commands R&S Calculation Functions 13.6.2.2 Continuous Average Calculation Functions with Buffering Parameter list The following parameters are used. ● <buffered_size> Mandatory. Number of requested measured values. Corresponds to [SENSe<Sensor>:][POWer:][AVG:]BUFFer:SIZE. ● <expected_value> Optional. Value that is expected for the measurement. ●...
Page 297 ® Remote Control Commands R&S Calculation Functions CONFigure<Measurement>:ARRay[:POWer][:AVG]:DIFFerence? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>:ARRay[:POWer][:AVG]:DIFFerence? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>:ARRay[:POWer][:AVG]:DIFFerence? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>:ARRay[:POWer][:AVG]:DIFFerence? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]"(SENSn-SENSm)". Difference measured by two power sensors with buffering. The used parameters are described in "Parameter list"...
Page 298 ® Remote Control Commands R&S Calculation Functions <resolution_or_source_list> <source_list> <expr> Usage: Query only CONFigure<Measurement>:ARRay[:POWer][:AVG]:RATio? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>:ARRay[:POWer][:AVG]:RATio? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>:ARRay[:POWer][:AVG]:RATio? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>:ARRay[:POWer][:AVG]:RATio? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]"(SENSn /SENSm)". Ratio measured by two power sensors with buffering. The used parameters are descri- bed in "Parameter list"...
Page 299 ® Remote Control Commands R&S Calculation Functions Query parameters: <buffered_size> <expr> <expected_value_or_source_list> <resolution_or_source_list> <source_list> <expr> Usage: Query only CONFigure<Measurement>:ARRay[:POWer][:AVG]:REFLection? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>:ARRay[:POWer][:AVG]:REFLection? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>:ARRay[:POWer][:AVG]:REFLection? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>:ARRay[:POWer][:AVG]:REFLection? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession] "REFL(SENSn,SENSm)".
Page 300 ® Remote Control Commands R&S Calculation Functions Suffix: <Measurement> 1 to 8 Measurement Query parameters: <buffered_size> <expr> <expected_value_or_source_list> <resolution_or_source_list> <source_list> <expr> Usage: Query only CONFigure<Measurement>:ARRay[:POWer][:AVG]:RLOSs? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>:ARRay[:POWer][:AVG]:RLOSs? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>:ARRay[:POWer][:AVG]:RLOSs? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>:ARRay[:POWer][:AVG]:RLOSs? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]...
Page 301 ® Remote Control Commands R&S Calculation Functions Sum of the values measured by two power sensors with buffering. The used parame- ters are described in "Parameter list" on page 296. Suffix: <Measurement> 1 to 8 Measurement Query parameters: <buffered_size> <expr> <expected_value_or_source_list>...
Page 302: Burst Average Calculation Functions
® Remote Control Commands R&S Calculation Functions READ<Measurement>:ARRay[:POWer][:AVG]:SWR? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>:ARRay[:POWer][:AVG]:SWR? <buffered_size>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession] "SWR(SENSn,SENSm)". Standing wave ratio measurement of two power sensors with buffering. The used parameters are described in "Parameter list" on page 296. Suffix: <Measurement>...
Page 303 ® Remote Control Commands R&S Calculation Functions Optional. Primary and secondary sensor. The number for each sensor is preceded by the character @. The entire expression is enclosed in parentheses. Example: (@3),(@2) Sensor C is the primary sensor, and sensor B is the secondary sensor. CONFigure<Measurement>[:SCALar][:POWer]:BURSt? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...]...
Page 304 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer]:BURSt:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:BURSt:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]. Relative power measured by one power sensors. The used parameters are described "Parameter list" on page 302. Suffix: <Measurement>...
Page 305 ® Remote Control Commands R&S Calculation Functions <end_exclude> Default unit: s <expected_value_or_source_list> <resolution_or_source_list> <source_list> <expr> Usage: Query only CONFigure<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession].
Page 306 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer]:BURSt:SUM? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:BURSt:SUM? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]"(SENSn+SENSm)". Sum measured by two power sensors. The used parameters are described in "Param- eter list" on page 302. Suffix: <Measurement>...
Page 307 ® Remote Control Commands R&S Calculation Functions <end_exclude> Default unit: s <expected_value_or_source_list> <resolution_or_source_list> <source_list> <expr> Usage: Query only CONFigure<Measurement>[:SCALar][:POWer]:BURSt:RATio? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:BURSt:RATio? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:BURSt:RATio? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:BURSt:RATio? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]"(SENSn /SENSm)".
Page 308 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer]:BURSt:RATio:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:BURSt:RATio:RELative? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]. Relative ratio measured by two power sensors. The used parameters are described in "Parameter list" on page 302. Suffix: <Measurement>...
Page 309 ® Remote Control Commands R&S Calculation Functions <start_exclude> Default unit: s <end_exclude> Default unit: s <expected_value_or_source_list> <resolution_or_source_list> <source_list> <expr> Usage: Query only CONFigure<Measurement>[:SCALar][:POWer]:BURSt:REFLection? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:BURSt:REFLection? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:BURSt:REFLection? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:BURSt:REFLection? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>,...
Page 310: Timeslot Calculation Functions
® Remote Control Commands R&S Calculation Functions CONFigure<Measurement>[:SCALar][:POWer]:BURSt:RLOSs? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:BURSt:RLOSs? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:BURSt:RLOSs? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:BURSt:RLOSs? <dtolerance>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession] "RLOS(SENSn,SENSm)". Return loss/transmission loss of a DUT, measured by two power sensors. The used parameters are described in "Parameter list"...
Page 311 ® Remote Control Commands R&S Calculation Functions Mandatory. Amount of time at the beginning of a timeslot or integration period that is not evaluated. Corresponds to [SENSe<Sensor>:]TIMing:EXCLude:STARt. ● <end_exclude> Mandatory. Amount of time at the end of a timeslot or integration period that is not evaluated.
Page 312 ® Remote Control Commands R&S Calculation Functions <source_list> <expr> Usage: Query only CONFigure<Measurement>[:SCALar][:POWer]:TSLot:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:TSLot:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:TSLot:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:TSLot:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession].
Page 313 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]"(SENSn-SENSm)". Power measured by two power sensors. The used parameters are described in "Parameter list" on page 310.
Page 314 ® Remote Control Commands R&S Calculation Functions <no_slots> Default unit: s <start_exclude> Default unit: s <end_exclude> Default unit: s <expected_value_or_source_list> <resolution_or_source_list> <source_list> <expr> Usage: Query only CONFigure<Measurement>[:SCALar][:POWer]:TSLot:SUM? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:TSLot:SUM? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:TSLot:SUM? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>,...
Page 315 ® Remote Control Commands R&S Calculation Functions CONFigure<Measurement>[:SCALar][:POWer]:TSLot:SUM:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:TSLot:SUM:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:TSLot:SUM:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:TSLot:SUM:RELative? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]. Relative sum measured by two power sensors.
Page 316 ® Remote Control Commands R&S Calculation Functions Ratio measured by two power sensors. The used parameters are described in "Param- eter list" on page 310. Suffix: <Measurement> 1 to 8 Measurement Query parameters: <tslot_width> Default unit: s <no_slots> Default unit: s <start_exclude>...
Page 317 ® Remote Control Commands R&S Calculation Functions <source_list> <expr> Usage: Query only CONFigure<Measurement>[:SCALar][:POWer]:TSLot:SWR? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] FETCh<Measurement>[:SCALar][:POWer]:TSLot:SWR? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] READ<Measurement>[:SCALar][:POWer]:TSLot:SWR? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:TSLot:SWR? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession]...
Page 318 ® Remote Control Commands R&S Calculation Functions READ<Measurement>[:SCALar][:POWer]:TSLot:REFLection? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] MEASure<Measurement>[:SCALar][:POWer]:TSLot:REFLection? <tslot_width>, <no_slots>, <start_exclude>, <end_exclude>[, <expected_value_or_source_list>, <resolution_or_source_list>, <source_list>...] Used for CALCulate<Measurement>:MATH[:EXPRession] "REFL(SENSn,SENSm)". Reflection coefficient/transmission factor of a DUT, measured by two power sensors. The used parameters are described in "Parameter list"...
Page 319: Configuring Sensors
® Remote Control Commands R&S Configuring Sensors Query parameters: <tslot_width> Default unit: s <no_slots> Default unit: s <start_exclude> Default unit: s <end_exclude> Default unit: s <expected_value_or_source_list> <resolution_or_source_list> <source_list> <expr> Usage: Query only 13.7 Configuring Sensors ● Setting the Frequency................... 319 ●...
Page 320: Sensor Modes
® Remote Control Commands R&S Configuring Sensors [SENSe<Sensor>:]FREQuency:TRACk <state> Enables or disables the frequency tracker of the power sensor, if available. Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <state>...
Page 321 ® Remote Control Commands R&S Configuring Sensors CALCulate<Measurement>[:CHANnel<Channel>]:BURSt:TIMing:EXCLude:STOP <value> Effective for burst average measurements. Sets the time interval at the end of bursts that is excluded from the measurement. Thus, signal overshoots are omitted. Suffix: <Measurement> 1 to 8 Measurement <Channel>...
Page 322 ® Remote Control Commands R&S Configuring Sensors Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <duty_cycle> Range: 0.001 to 100.0 *RST: 50.0 Default unit: pct Manual operation: "Duty Cycle" on page 114 CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:ESAMpling <value>...
Page 323 ® Remote Control Commands R&S Configuring Sensors FREQ2 Lower sampling rate Recommended to avoid measurement errors caused due to ali- asing effects. However, this setting extends the measurement time. *RST: FREQ1 Manual operation: "Sampling Rate" on page 115 CALCulate<Measurement>[:CHANnel<Channel>][:POWer]:BURSt:DTOLerance <value> Effective for burst average measurements.
Page 324: Sensor Corrections
® Remote Control Commands R&S Configuring Sensors Parameters: <value> Range: 8.3e-9 to 30.0 *RST: 0.01 Default unit: s Manual operation: "Aperture" on page 115 CALCulate<Measurement>[:CHANnel<Channel>][:POWer][:AVG]:SMOothing[: STATe] <value> Effective for continuous average measurements. Enables or disables the smoothing filter, a steep-edge digital lowpass filter. The filter reduces result fluctuations caused by modulation.
Page 325 ® Remote Control Commands R&S Configuring Sensors .............. 325 [SENSe<Sensor>:]CORRection:SPDevice:LIST? ............325 [SENSe<Sensor>:]CORRection:SPDevice:SELect ............. 325 [SENSe<Sensor>:]CORRection:SPDevice:STATe ............... 326 [SENSe<Sensor>:]RGAMma[:MAGNitude] ................326 [SENSe<Sensor>:]RGAMma:PHASe ....326 CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:OFFSet:STATe ..327 CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:OFFSet:TABLe:INDex ..327 CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:OFFSet:TABLe[:STATe] ..328 CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:OFFSet[:MAGNitude] ....328 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma:CORRection:STATe ........328 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma:PHASe ......329 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma[:MAGNitude] [SENSe<Sensor>:]CORRection:SPDevice:LIST? Queries the list of the S-parameter data sets that have been loaded to the power sen-...
Page 326 ® Remote Control Commands R&S Configuring Sensors For some power sensors, the S-parameter correction is always activated. If you try to deactivate the S-parameter correction for such a power sensor, a SCPI error is gener- ated. Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ...
Page 327 ® Remote Control Commands R&S Configuring Sensors Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <state> ON | OFF *RST: Manual operation: "Offset State"...
Page 328 ® Remote Control Commands R&S Configuring Sensors Usage: Setting only Manual operation: "Frequency dependent offset active" on page 119 CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:OFFSet[: MAGNitude] <value> Effective if CALCulate<Measurement>[:CHANnel<Channel>]:CORRection: ON is set. OFFSet:STATe Considers the transmission loss in a cable that connects the desired measurement point, set by INPut<Sensor>:PORT:POSition, and the power sensor.
Page 329: Sensor Filters
® Remote Control Commands R&S Configuring Sensors Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <value> Range: -360.0 to 360.0 *RST: Default unit: deg Manual operation: "Gamma Phase" on page 120 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma[:MAGNitude] <value>...
Page 330 ® Remote Control Commands R&S Configuring Sensors ..335 CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage:TCONtrol:AUTO ..335 CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage:TCONtrol[:ENUM] .......336 CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage[:STATe] ....336 CALCulate<Measurement>[:CHANnel<Channel>][:POWer]:NCORrection[:STATe] ......336 CALCulate<Measurement>[:CHANnel<Channel>][:POWer]:VBWidth:ENUM [SENSe<Sensor>:]AVERage:COUNt:AUTO:RESolution <resolution> Defines the number of significant places for linear units and the number of decimal pla- ces for logarithmic units which should be free of noise in the measurement result. The setting is only taken into account, if: ●...
Page 331 ® Remote Control Commands R&S Configuring Sensors Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <value> Range: 0.01 to 1000.0 *RST: Default unit: s Manual operation: "Maximum Settling Time" on page 122 CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt:AUTO: NSRatio <value>...
Page 332 ® Remote Control Commands R&S Configuring Sensors Parameters: <value> Range: 1 to 128 *RST: Manual operation: "Timeslot" on page 123 CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt:AUTO:TYPE <value> Effective for continuous average, burst average measurements. Sets the autofilter. Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <value>...
Page 333 ® Remote Control Commands R&S Configuring Sensors Parameters: <state> *RST: Manual operation: "Moving Average State" on page 123 CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:TCONtrol[:ENUM] <mode> Effective for continuous average, burst average, pulse analysis, timeslot, statistics measurements. Defines how the measurement results are output. This is called termination control. Suffix: <Measurement>...
Page 334 ® Remote Control Commands R&S Configuring Sensors <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <type> POWer | VIDeo | LINear *RST: POWer Manual operation: "Averaging Domain" on page 123 CALCulate<Measurement>[:CHANnel<Channel>]:AVERage[:STATe] <value> Enables or disables the averaging filter. If enabled, the number of measured values is averaged.
Page 335 ® Remote Control Commands R&S Configuring Sensors CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage:TCONtrol: AUTO <state> Effective for trace measurements. Enables or disables the automatic termination control. See also CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage: on page 335. TCONtrol[:ENUM] Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <state>...
Page 336 ® Remote Control Commands R&S Configuring Sensors Manual operation: "Moving Average" on page 123 CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage[:STATe] <value> Effective for trace measurements. Enables or disables the averaging filter. If enabled, the number of measured values is averaged. Averaging reduces the effect of noise so that more reliable results are obtained.
Page 337: Sensor Ranges
® Remote Control Commands R&S Configuring Sensors <Channel> 1 to 2 1 = forward, 2 = reflection (reverse) Parameters: <value> EFULl | E5M | E1M5 | E0M3 EFULl Full 5 MHz E1M5 1.5 MHz E0M3 300 kHz *RST: EFULl Manual operation: "Video Bandwidth"...
Page 338 ® Remote Control Commands R&S Configuring Sensors CALCulate<Measurement>[:CHANnel<Channel>]:INPut:ATTenuation[:VALue] <value> Requires an R&S frequency selective power sensor. Effective if CALCulate<Measurement>[:CHANnel<Channel>]:INPut: OFF is set. ATTenuation:AUTO Sets the input attenuation. Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <value>...
Page 339 ® Remote Control Commands R&S Configuring Sensors Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <value> *RST: Manual operation: "User Defined Transition" on page 125 CALCulate<Measurement>[:CHANnel<Channel>][:POWer][:AVG]:RANGe: CLEVel[:VALue] <value> Reduces the transition range between the measurement paths, 0 -> 1 and 1 -> 2, by the set value, the so-called cross-over level.
Page 340: Standardized Signals
® Remote Control Commands R&S Configuring Sensors 13.7.6 Standardized Signals For a set of standards, you can preconfigure settings. 13.7.6.1 Commands ..................340 SYSTem:STANdard:CATalog? ................... 340 SYSTem:STANdard:PRESet ..................341 SYSTem:STANdard:PWSettings ................341 SYSTem:STANdard:TRIGger:SOURce SYSTem:STANdard:CATalog? Queries the supported standards. Use the returned strings for SYSTem:STANdard: PRESet.
Page 341: Preconfigured Settings
® Remote Control Commands R&S Configuring Sensors Bluetooth DH5 Table 13-14 CDMA2000 Table 13-15 Usage: Setting only Manual operation: "Parameter Set" on page 68 "Recall Parameter Set" on page 69 SYSTem:STANdard:PWSettings <state> Specifies whether the display settings are kept unchanged when using SYSTem: STANdard:PRESet.
Page 342 ® Remote Control Commands R&S Configuring Sensors Table 13-6: GSM/EDGE Sensor parameter Remote control command Value Sensor mode TRACe CALCulate<Measurement>:TYPE Aperture time 4.615 ms CALCulate<Measurement>[:CHANnel<Channel>][: POWer][:AVG]:APERture[:VALue] Duty cycle 11.762 % CALCulate<Measurement>[:CHANnel<Channel>]: CORRection:DCYCle[:VALue] Duty cycle correction CALCulate<Measurement>[:CHANnel<Channel>]: CORRection:DCYCle:STATe Smoothing CALCulate<Measurement>[:CHANnel<Channel>][: POWer][:AVG]:SMOothing[:STATe] 577 μs Dropout tolerance CALCulate<Measurement>[:CHANnel<Channel>][:...
Page 343 ® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value Trigger holdoff 27 ms TRIGger<Measurement>[:CHANnel<Channel>]: HOLDoff Trigger dropout time TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe Trigger hysteresis 3 dB TRIGger<Measurement>[:CHANnel<Channel>]: HYSTeresis Table 13-7: DECT Sensor parameter Remote control command Value Sensor mode TRACe CALCulate<Measurement>:TYPE Aperture time...
Page 344 ® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value Trigger delay TRIGger<Measurement>[:CHANnel<Channel>]: DELay[:VALue] -30 dBm Trigger level TRIGger<Measurement>[:CHANnel<Channel>]:LEVel Trigger source TRIGger<Measurement>[:CHANnel<Channel>]: SOURce Trigger slope TRIGger<Measurement>[:CHANnel<Channel>]:SLOPe Trigger holdoff 39.9 ms TRIGger<Measurement>[:CHANnel<Channel>]: HOLDoff Trigger dropout time TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe Trigger hysteresis 3 dB TRIGger<Measurement>[:CHANnel<Channel>]: HYSTeresis...
Page 345 ® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value 666.667 μs Dropout tolerance CALCulate<Measurement>[:CHANnel<Channel>][: POWer]:BURSt:DTOLerance 25 μs Exclude time start CALCulate<Measurement>:TSLot:TIMing:EXCLude: STARt 40 μs Exclude time end CALCulate<Measurement>:TSLot:TIMing:EXCLude: STOP Timeslot count CALCulate<Measurement>[:POWer]:TSLot[:AVG]: COUNt Timeslot fence CALCulate<Measurement>[:POWer]:TSLot[:AVG][: EXCLude]:MID[:STATe] 666.667 μs Timeslot width...
Page 346 ® Remote Control Commands R&S Configuring Sensors Table 13-10: WCDMA/3GPP TDD UL Sensor parameter Remote control command Value Sensor mode TRACe CALCulate<Measurement>:TYPE Aperture time 10 ms CALCulate<Measurement>[:CHANnel<Channel>][: POWer][:AVG]:APERture[:VALue] Duty cycle 6.420 % CALCulate<Measurement>[:CHANnel<Channel>]: CORRection:DCYCle[:VALue] Duty cycle correction CALCulate<Measurement>[:CHANnel<Channel>]: CORRection:DCYCle:STATe Smoothing CALCulate<Measurement>[:CHANnel<Channel>][: POWer][:AVG]:SMOothing[:STATe] 666.667 μs...
Page 347 ® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value Trigger holdoff 19.9 ms TRIGger<Measurement>[:CHANnel<Channel>]: HOLDoff Trigger dropout time TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe Trigger hysteresis 3 dB TRIGger<Measurement>[:CHANnel<Channel>]: HYSTeresis Table 13-11: TD-SCDMA Sensor parameter Remote control command Value Sensor mode TRACe CALCulate<Measurement>:TYPE Aperture time...
Page 348 ® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value -30 dBm Trigger level TRIGger<Measurement>[:CHANnel<Channel>]:LEVel Trigger source TRIGger<Measurement>[:CHANnel<Channel>]: SOURce Trigger slope TRIGger<Measurement>[:CHANnel<Channel>]:SLOPe Trigger holdoff 19.9 ms TRIGger<Measurement>[:CHANnel<Channel>]: HOLDoff Trigger dropout time TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe Trigger hysteresis 3 dB TRIGger<Measurement>[:CHANnel<Channel>]: HYSTeresis Table 13-12: Bluetooth DH1 Sensor parameter...
Page 349 ® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value Trigger delay TRIGger<Measurement>[:CHANnel<Channel>]: DELay[:VALue] -30 dBm Trigger level TRIGger<Measurement>[:CHANnel<Channel>]:LEVel Trigger source TRIGger<Measurement>[:CHANnel<Channel>]: SOURce Trigger slope TRIGger<Measurement>[:CHANnel<Channel>]:SLOPe Trigger holdoff 2.480 ms TRIGger<Measurement>[:CHANnel<Channel>]: HOLDoff Trigger dropout time TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe Trigger hysteresis 3 dB TRIGger<Measurement>[:CHANnel<Channel>]: HYSTeresis...
Page 350 ® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value Trace realtime [SENSe<Sensor>:]TRACe:REALtime Trigger delay TRIGger<Measurement>[:CHANnel<Channel>]: DELay[:VALue] -30 dBm Trigger level TRIGger<Measurement>[:CHANnel<Channel>]:LEVel Trigger source TRIGger<Measurement>[:CHANnel<Channel>]: SOURce Trigger slope TRIGger<Measurement>[:CHANnel<Channel>]:SLOPe Trigger holdoff 4.980 ms TRIGger<Measurement>[:CHANnel<Channel>]: HOLDoff Trigger dropout time TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe Trigger hysteresis 3 dB...
Page 351: Display Configuration
® Remote Control Commands R&S Configuring Sensors Sensor parameter Remote control command Value Trace number of CALCulate<Measurement>:TRACe:X:POINts points Trace realtime [SENSe<Sensor>:]TRACe:REALtime Trigger delay TRIGger<Measurement>[:CHANnel<Channel>]: DELay[:VALue] -30 dBm Trigger level TRIGger<Measurement>[:CHANnel<Channel>]:LEVel Trigger source TRIGger<Measurement>[:CHANnel<Channel>]: SOURce Trigger slope TRIGger<Measurement>[:CHANnel<Channel>]:SLOPe Trigger holdoff 7.480 ms TRIGger<Measurement>[:CHANnel<Channel>]: HOLDoff Trigger dropout time...
Page 352 ® Remote Control Commands R&S Configuring Sensors R&S NRX parameter Remote control command Value Result resolution CALCulate<Measurement>:RESolution -90 dBm Lower power limit CALCulate<Measurement>: METer<DirectionalChannel>:LOWer[:DATA][: POWer] Upper power limit 30 dBm CALCulate<Measurement>: METer<DirectionalChannel>:UPPer[:DATA][: POWer] -120 dB Lower power ratio limit CALCulate<Measurement>: METer<DirectionalChannel>:LOWer[:DATA]: RATio[:VALue] Upper power ratio limit...
Page 353: Frequency Selective Power Sensors
® Remote Control Commands R&S Configuring Sensors R&S NRX parameter Remote control command Value Upper power ratio limit 1.0 dB CALCulate<Measurement>: LIMit<DirectionalChannel>:UPPer[:DATA]: RATio[:VALue] Lower power ratio limit 1.0 dB CALCulate<Measurement>: LIMit<DirectionalChannel>:LOWer[:DATA]: RATio[:VALue] 13.7.7 Frequency Selective Power Sensors ....353 CALCulate<Measurement>[:CHANnel<Channel>]:ROSCillator:REFio:FREQuency ..353 CALCulate<Measurement>[:CHANnel<Channel>]:ROSCillator:REFio:OUTPut[:STATe] ......
Page 354 ® Remote Control Commands R&S Configuring Sensors <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor Parameters: <state> *RST: CALCulate<Measurement>[:CHANnel<Channel>]:ROSCillator:SOURce <source> Effective for R&S NRP series power sensors and R&S frequency selective power sen- sors. Sets the source of the reference oscillator. Suffix: <Measurement>...
Page 355: Nrt Measurement Type
® Remote Control Commands R&S Configuring Sensors Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <value> FLAT | NORMal | LTE | W3GPp *RST: FLAT...
Page 356 ® Remote Control Commands R&S Configuring Sensors Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <mode> AUTO | USER AUTO Not supported by all power sensors. The power sensor automatically recognizes the duty cycle of the burst series and calculates the average burst power from this duty cycle and the average power.
Page 357 ® Remote Control Commands R&S Configuring Sensors CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:WIDTh <value> Effective if CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:MODE USER is set. Sets the burst width. Suffix: <Measurement> 1 to 8 Measurement <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <value>...
Page 358 ® Remote Control Commands R&S Configuring Sensors <Channel> 1 to 2 1 = primary sensor, 2 = secondary sensor or 1 = forward, 2 = reflection (reverse) Parameters: <direction> AUTO | FORWard | REVerse AUTO Determines the power flow direction automatically. The greater value of two measured values is automatically assigned as for- ward power.
Page 359: Nrt Correction Settings
® Remote Control Commands R&S Configuring Sensors *RST: Manual operation: "Direction" on page 128 INPut<Sensor>:PORT:SOURce[:VALue] <val> Effective if OFF is set. INPut<Sensor>:PORT:SOURce:AUTO Sets a fixed direction of the forward power. Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <val>...
Page 360 ® Remote Control Commands R&S Configuring Sensors Manual operation: "Modulation" on page 129 [SENSe<Sensor>:]DM:STANdard <standard> Requires the sensor interface for R&S NRT (R&S NRX-B9). Sets a communication standard for the modulation correction to reduce systematic deviations occurring in power measurements. Suffix: <Sensor>...
Page 361 ® Remote Control Commands R&S Configuring Sensors Parameters: <modulation> OFF | IS95 | WCDMa | DVBT | DAB *RST: Manual operation: "Modulation" on page 129 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:DMODulation:WCDMa: CRATe <value> Effective if CALCulate<Measurement>[:CHANnel<Channel>]:NRT: WCDMa is set. DMODulation[:VALue] Sets the chip rate for the WCDMA communication standard. Suffix: <Measurement>...
Page 362: Nrt Filter Settings
® Remote Control Commands R&S Configuring Sensors Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <pos> SOURce | LOAD *RST: SOURce...
Page 363 ® Remote Control Commands R&S Configuring Sensors CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt[:VALue] <value> Effective if CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt: OFF is set. AUTO[:STATe] Sets the number of readings that are averaged for one measured value. The higher the count, the lower the noise, and the longer it takes to obtain a measured value. Suffix: <Measurement>...
Page 364 ® Remote Control Commands R&S Configuring Sensors DEFault Default setting USER Value defined by CALCulate<Measurement>[: CHANnel<Channel>]:NRT:APERture[:VALue]. *RST: USER Manual operation: "Integration Time Mode" on page 131 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:APERture[:VALue] <value> Effective if CALCulate<Measurement>[:CHANnel<Channel>]:NRT:APERture: USER is set. MODE Defines the integration time for a single measurement. Suffix: <Measurement>...
Page 365: Configuring The Test Generator
® Remote Control Commands R&S Configuring the Test Generator Manual operation: "Video Bandwidth" on page 131 [SENSe<Sensor>:]BWIDth:VIDeo:FNUMber <fnum> [SENSe<Sensor>:]BANDwidth:VIDeo:FNUMber <fnum> Requires the sensor interface for R&S NRT (R&S NRX-B9). For measuring the peak envelope power, specify the video bandwidth that is used for measuring the detected RF signal.
Page 366 ® Remote Control Commands R&S Configuring the Test Generator SOURce:POWer[:VALue] <value> Requires the sensor check source (R&S NRX-B1) Sets the power level for the output signal. If you enter a value without unit, the unit is defined by SOURce:UNIT:POWer. For fur- ther information, see Chapter 13.5.1.3, "Units",...
Page 367: Configuring The Analog Signal Ouput And The Trigger Input/Output
® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output 13.9 Configuring the Analog Signal Ouput and the Trigger Input/Output Configures the two multifunctional BNC connectors at the rear of the R&S NRX. Further Information: ● Chapter 3.2.2.1, "Trig In / Out 2 and Out 1 / Trig Out Connectors", on page 28...
Page 368 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output OUTPut:LIMit:FAIL <mode> Effective if is set to: OUTPut:MODE<output> LIM, FLIMit or RLIMit Sets the fail voltage that is output if a measured value causes a limit violation. Parameters: <mode>...
Page 369 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output LIMit Limit violation FLIMit Forward limit violation RLIMit Reflection limit violation TOUT Trigger output Trigger input *RST: Manual operation: "Mode" on page 146 OUTPut:RECorder<output>:FEED:INDex <index> Effective if REC or FREC or RREC is set.
Page 370 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output OUTPut:RECorder<output>:LIMit:LOWer[:VALue] <value> Effective if is set to REC, FREC or RREC. OUTPut:MODE<output> Sets the measurement value that corresponds to 0 V output voltage. If you enter a value without unit, the unit is defined by UNIT<Measurement>: POWer[:VALue].
Page 371 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output Parameters: <value> Range: -1e18 to 1e18 *RST: Default unit: - Manual operation: "0 V Equivalent" on page 147 OUTPut:RECorder<output>:LIMit:LOWer:RATio:RFRatio <value> Effective if is set to: OUTPut:MODE<output> REC, FREC or RREC Sets the ratio of forward/reverse power that corresponds to 0 V output voltage.
Page 372 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output Sets the standing wave ration (SWR) measurement value that corresponds to 0 V out- put voltage. Suffix: <output> 1 to 2 BNC connectors at the rear; 1 = Out 1 / Trig Out, 2 = Trig In / Out 2 Parameters: <value>...
Page 373 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output Manual operation: "2.5 V Equivalent" on page 147 OUTPut:RECorder<output>:LIMit:UPPer[:VALue] <value> Effective if is set to REC, FREC or RREC. OUTPut:MODE<output> Sets the measurement value that corresponds to 2.5 V output voltage. If you enter a value without unit, the unit is defined by UNIT<Measurement>: POWer[:VALue].
Page 374 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output Suffix: <output> 1 to 2 BNC connectors at the rear; 1 = Out 1 / Trig Out, 2 = Trig In / Out 2 Parameters: <value> Range: -1e18 to 1e18 *RST:...
Page 375 ® Remote Control Commands R&S Configuring the Analog Signal Ouput and the Trigger Input/Output OUTPut:RECorder<output>:LIMit:UPPer:RATio:SWR <value> Effective if is set to: OUTPut:MODE<output> REC, FREC or RREC Sets the standing wave ratio (SWR) measurement value that corresponds to 2.5 V out- put voltage.
Page 376: Zeroing
® Remote Control Commands R&S Zeroing 13.10 Zeroing Further Information: ● Chapter 10, "Zeroing Sensors", on page 134 ................... 376 CALibration<Sensor>:ZERO ..................376 CALibration<Sensor>:ZERO:AUTO ................377 CALibration<undef>:ALL:ZERO:AUTO .................377 CALibration<Sensor>:ZERO:FAST:AUTO ..............377 CALibration<undef>:ALL:ZERO:FAST:AUTO CALibration<Sensor>:ZERO [<auto>] Performs zeroing for the power sensor connected to selected port. Turn off all test signals before zeroing.
Page 377 ® Remote Control Commands R&S Zeroing The command is not fully R&S NRP2 compatible. If port 1 is assigned to measure- ment 1 and so on, the command works. If port 1 is assigned to measurement 2, for example, enable the R&S NRP2 emulation using SYSTem:LANGuage "NRP2".
Page 378: Running Selftests
® Remote Control Commands R&S Running Selftests Suffix: <undef> 1 to n No suffix required. Parameters: <auto> ON | OFF | ONCE | LFR | UFR 13.11 Running Selftests Used for testing the connected power sensors and the R&S NRX. Further information: ●...
Page 379 ® Remote Control Commands R&S Running Selftests Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only CALibration<Sensor>:TEST:REFerence? Requires a thermal power sensor, equipped with an additional test heater.
Page 380: Managing Setups And Correction Tables
® Remote Control Commands R&S Managing Setups and Correction Tables TEST:USB:STORage? [<argument>] Checks the connected memory stick. Query parameters: <argument> Test passed Test failed; no memory stick connected or memory stick does not respond. Usage: Query only TEST:SENSor<Sensor>? Starts a selftest of the selected power sensor and returns the result. In contrast to *TST?, this command returns detailed information that you can use for troubleshoot- ing.
Page 381 ® Remote Control Commands R&S Managing Setups and Correction Tables ● "Frequency Dependent Offset" on page 118 ....................381 MEMory:CATalog:STATe? ....................381 MEMory:CATalog:TABLe? ....................382 MEMory:CATalog[:ALL]? ....................382 MEMory:CLEar:TABLe ....................382 MEMory:CLEar[:NAME] ....................383 MEMory:FREE:STATe? ....................383 MEMory:FREE:TABLe? ....................383 MEMory:FREE[:ALL]? ......................383 MEMory:NSTates? ....................
Page 382 ® Remote Control Commands R&S Managing Setups and Correction Tables Example: "Table 2,TABL,84" Usage: Query only MEMory:CATalog[:ALL]? Queries information on the available setups and frequency-dependent correction tables stored on the R&S NRX. Combines the information queried by. ● MEMory:CATalog:STATe? ● MEMory:CATalog:TABLe? The response consists of: <used disk space>, <remaining disk space>, "<setup 1>", "<setup 2>", "<setup 3>", ...,...
Page 383 ® Remote Control Commands R&S Managing Setups and Correction Tables MEMory:FREE:STATe? Queries the used and remaining disk space for setups. Example: MEM:FREE:STAT? Query 1358442496,8337127 Response Usage: Query only MEMory:FREE:TABLe? Queries the used and remaining disk space for frequency-dependent correction tables. Example: MEM:FREE:TABL? Query...
Page 384 ® Remote Control Commands R&S Managing Setups and Correction Tables MEMory:STATe:DEFine <register_name>[, <register_number>] MEMory:STATe:MAP <register_name>[, <register_number>] Assigns a name to the setup stored in the memory location. Take care to use recognizable names. The R&S NRX does not check whether a name is unique.
Page 385 ® Remote Control Commands R&S Managing Setups and Correction Tables MEMory:TABLe:DATA:POINts? Queries the number of data pairs (frequency - offset) in the selected table. to select the table. MEMory:TABLe:SELect Usage: Query only MEMory:TABLe:FREQuency <value>... Defines the frequency values in the selected correction table. Existing data is overwrit- ten.
Page 386 ® Remote Control Commands R&S Managing Setups and Correction Tables MEMory:TABLe:GAIN[:MAGNitude] <value>... Defines the offset values in the selected correction table. Existing data is overwritten. Take care that the number of frequency values matches the number of offset values, defined by MEMory:TABLe:FREQuency. If the numbers differ, excess values are ignored.
Page 387: System Information And Configuration
® Remote Control Commands R&S System Information and Configuration Setting parameters: <string> "<old name>","<new name>" If the old name is incorrect, an error occurs. Example: MEM:TABL:MOVE "Test 1","test_5#" Usage: Setting only MEMory:TABLe:RESet Deletes the content of all frequency-dependent correction tables and resets the names to factory default, "Table 1", "Table 2"...
Page 388: Presetting
® Remote Control Commands R&S System Information and Configuration 13.13.1 Presetting ......................388 SYSTem:PRESet ...................388 SYSTem:SENSor<Sensor>:RESet SYSTem:PRESet Sets the R&S NRX to a defined initial state. The default settings are indicated in the description of commands as *RST value. With the exceptions listed in Table 13-16, this command corresponds to *RST.
Page 389: Firmware Update
® Remote Control Commands R&S System Information and Configuration SYSTem:SENSor<Sensor>:REBoot Reboots the selected power sensor. Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Event SYSTem:SHUTdown...
Page 390: Network Settings
® Remote Control Commands R&S System Information and Configuration 9 + 1 + 1 + 1 + 8 + 10242884 + 1 In a (pseudo) string notation, the memory block looks as follows: SYST:FWUP #810242884<file_contents>0x0a, .......................390 SYSTem:FWUPdate ..................390 SYSTem:FWUPdate:STATus? SYSTem:FWUPdate <fwudata>>...
Page 391 ® Remote Control Commands R&S System Information and Configuration ............391 SYSTem:COMMunicate:NETWork[:COMMon]:DOMain ..........392 SYSTem:COMMunicate:INET[:SELF]:GATeway:ADDRess ...........392 SYSTem:COMMunicate:NETWork[:IPADdress]:GATeway ..............392 SYSTem:COMMunicate:INET[:SELF]:MODE ............392 SYSTem:COMMunicate:NETWork[:IPADdress]:MODE ..........392 SYSTem:COMMunicate:INET[:SELF]:SUBNetmask:ADDRess ...........392 SYSTem:COMMunicate:NETWork[:IPADdress]:SUBNet:MASK ..........392 SYSTem:COMMunicate:NETWork[:COMMon]:HOSTname ..........393 SYSTem:COMMunicate:NETWork[:COMMon]:WORKgroup ..............393 SYSTem:COMMunicate:NETWork:MACaddress? ..............393 SYSTem:COMMunicate:NETWork:RESTart ..............393 SYSTem:COMMunicate:NETWork:STATus? SYSTem:COMMunicate:INET[:SELF]:ADDRess <address> SYSTem:COMMunicate:NETWork[:IPADdress][:ADDRess] <IPaddress>...
Page 392 ® Remote Control Commands R&S System Information and Configuration SYSTem:COMMunicate:INET[:SELF]:GATeway:ADDRess <gateway> SYSTem:COMMunicate:NETWork[:IPADdress]:GATeway <Gateway> Effective if STATic is set. SYSTem:COMMunicate:NETWork[:IPADdress]:MODE Sets the IP address of the default gateway. Parameters: <Gateway> Consists of four blocks separated by dots, consisting of up to 3 digits.
Page 393: Remote Settings
® Remote Control Commands R&S System Information and Configuration Parameters: <Hostname> Manual operation: "Host Name" on page 138 SYSTem:COMMunicate:NETWork[:COMMon]:WORKgroup <Workgroup> Sets an individual workgroup name for the R&S NRX. Parameters: <Workgroup> SYSTem:COMMunicate:NETWork:MACaddress? Queries the MAC address of the network adapter. Usage: Query only SYSTem:COMMunicate:NETWork:RESTart...
Page 394 ® Remote Control Commands R&S System Information and Configuration Parameters: <address> Range: 1 to 30 *RST: Manual operation: "GPIB Address" on page 142 SYSTem:HELP:HEADers? [<Parser>] Returns a list of all SCPI commands supported by the R&S NRX. Query parameters: <Parser> Return values: <Headers>...
Page 395 ® Remote Control Commands R&S System Information and Configuration You can query the defined string using *IDN?. Parameters: <string> Identification string. Maximum string length is 128 characters. Manual operation: "Custom IDN String" on page 143 SYSTem:IDN:AUTO <status> Enables or disables the automatic instrument identification for *IDN?. Parameters: <status>...
Page 396: Managing Sensors
® Remote Control Commands R&S System Information and Configuration SYSTem:OPT:ANSWer <string> Effective if USER is set. SYSTem:OPT:MODE Sets the customized option identification string. You can query the defined string using *OPT?. Parameters: <string> Option string. Maximum string length is 128 characters. Manual operation: "Custom OPT String"...
Page 397 ® Remote Control Commands R&S System Information and Configuration [SENSe<Sensor>:]ADD <sensor> Adds a LAN power sensor. See "To add a LAN power sensor" on page 149. Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Setting parameters: <sensor>...
Page 398: Instrument Information
® Remote Control Commands R&S System Information and Configuration Example: SYST:SENS2:INFO? Query "Cal. Abs.:2015-07-08 ","Cal. Due Date: 2017-07 ","Cal. Lin.: not applicable ","Cal. Misc.: 2015-07-08 ","Cal. Refl.: 2015-07-08 ","Cal. S-Para.: not applicable ","Cal. S-Para. (User): not applicable ","Cal. Temp.: not applicable ","Coupling:AC ","Function: Power Terminating ","Hostname: nrp33sn-900444 ","IP Address: 0.0.0.0 ","Impedance:...
Page 399 ® Remote Control Commands R&S System Information and Configuration SYSTem:DFPRint [<Path>] Generates the device footprint. Setting parameters: <Path> Return values: <XMLDeviceFootprint> <dblock> SYSTem:DFPRint:HISTory:COUNt? Queries the number of device footprints in the history. Return values: <Count> Usage: Query only SYSTem:DFPRint:HISTory:ENTRy? <index> Queries a device footprint from the history.
Page 400: Date And Time Settings
® Remote Control Commands R&S System Information and Configuration Query parameters: <argument> 'Manufacturer', 'Type', 'Stock Number', 'Serial', 'SW Build', 'MAC Address', 'Hostname', 'IP Address', 'Domain', 'Subnetmask', 'Gateway', 'Mode', 'Status', 'Sensor Name', 'Technology', 'Func- tion', 'MinPower', 'MaxPower', 'MinFreq', 'MaxFreq', 'Impedance', 'Coupling', 'Uptime', 'Cal. Misc.', 'Cal. Abs.', 'Cal. Refl.', 'Cal. Temp.', ' Cal.
Page 401 ® Remote Control Commands R&S System Information and Configuration <day> Range: 1 to 31 Manual operation: "Date" on page 154 SYSTem:TIME <hour>, <min>, <sec> SYSTem:TIME:UTC <hour>, <minute>, <second> Sets the time in the coordinated universal time (UTC). is changed accordingly. SYSTem:TIME:LOCal Parameters: <hour>...
Page 402: Error Messages
® Remote Control Commands R&S System Information and Configuration Manual operation: "Time Zone Region" on page 154 "Time Zone" on page 155 SYSTem:TIME:DSTime:RULE:CATalog? Querys the list of available time zones. Return values: <cat> Usage: Query only Manual operation: "Time Zone Region" on page 154 "Time Zone"...
Page 403 ® Remote Control Commands R&S System Information and Configuration For example, a static error is reported as long as the R&S NRX detects over-tem- perature conditions or a faulty fan. In the following, the expressions error code and error number are used synonymously. Further information: ●...
Page 404 ® Remote Control Commands R&S System Information and Configuration Example: SYSTem:ERRor:CODE Queries the oldest entry in the error queue. Response: 0 No errors have occurred since the error queue was last read out. Usage: Query only SYSTem:ERRor:COUNt? Queries the number of entries in the error queue. Return values: <ErrorCount>...
Page 405: Locking
® Remote Control Commands R&S System Information and Configuration SYSTem:SERRor:LIST:ALL? Queries the list of all static errors that have occurred so far. The list is persistent. You can remove entries using SYSTem:SERRor:REMove. Usage: Query only SYSTem:SERRor:LIST:NEXT? Queries the list of all static errors that have occurred but have already been resolved for the oldest entry and removes it from the queue.
Page 406: Using The Status Register
® Remote Control Commands R&S Using the Status Register SYSTem:LOCK:TIMeout <timeout> Sets the maximum time in milliseconds to wait when processing a command if the device is locked and the sender of the command is not the owner of the lock before the command is discarded and an error is written to the error queue.
Page 407: Reading Out The Condition Part
® Remote Control Commands R&S Using the Status Register <ErrorDescription> String describing the error, example: "No error" Error queue is empty. Usage: Query only 13.14.2 Reading Out the CONDition Part Further information: ● "CONDition status register part" on page 463 STATus:DEVice:CONDition? STATus:OPERation:BIT<bitno>:CONDition? STATus:OPERation:CALibrating:CONDition?
Page 408: Controlling The Enable Part
® Remote Control Commands R&S Using the Status Register STATus:OPERation:TRIGger:EXTension<RegisterIndex>[:SUMMary][:EVENt]? STATus:OPERation:ULFail<RegisterIndex>[:SUMMary][:EVENt]? STATus:QUEStionable[:EVENt]? STATus:QUEStionable:BIT<bitno>[:EVENt]? STATus:QUEStionable:CALibration[:SUMMary][:EVENt]? STATus:QUEStionable:MEASure<RegisterIndex>[:SUMMary][:EVENt]? STATus:QUEStionable:POWer[:SUMMary][:EVENt]? STATus:QUEStionable:WINDow<RegisterIndex>[:SUMMary][:EVENt]? Suffix: <RegisterIndex> 1 to 8 Register Usage: Query only 13.14.4 Controlling the ENABle Part Further information: ● "ENABle status register part" on page 463 STATus:DEVice:ENABle <value>...
Page 409: Controlling The Positive Transition Part
® Remote Control Commands R&S Using the Status Register STATus:DEVice:NTRansition <value> STATus:OPERation:BIT<bitno>:NTRansition <RegisterBit> STATus:OPERation:CALibrating:NTRansition <value> STATus:OPERation:LLFail<RegisterIndex>:NTRansition <value> STATus:OPERation:MEASuring:NTRansition <value> STATus:OPERation:MEASuring:EXTension<RegisterIndex>:NTRansition <value> STATus:OPERation:NTRansition <RegisterValue> STATus:OPERation:SENSe:NTRansition <value> STATus:OPERation:TRIGger:NTRansition <value> STATus:OPERation:TRIGger:EXTension<RegisterIndex>:NTRansition <value> STATus:OPERation:ULFail<RegisterIndex>:NTRansition <value> STATus:QUEStionable:BIT<bitno>:NTRansition <RegisterBit> STATus:QUEStionable:CALibration:NTRansition <value> STATus:QUEStionable:NTRansition <RegisterValue> STATus:QUEStionable:MEASure<RegisterIndex>:NTRansition <value> STATus:QUEStionable:POWer:NTRansition <value> STATus:QUEStionable:WINDow<RegisterIndex>:NTRansition <value>...
Page 410: R&S Nrp2 Compatibility
® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <value> *RST: 65535 13.15 R&S NRP2 Compatibility This chapter describes all R&S NRP2 remote commands that are still functional but not recommended to use if you start afresh. If you want to reuse programming from the R&S NRP2, you can use these commands.
Page 411: Display Commands
® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <value> CALCulate<Measurement>:TRACe:MARKer<Marker>:XPOSition <value> Available for R&S NRP2 compatibility. Recommended R&S NRX command: DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:TIME Suffix: <Measurement> 1 to 8 Measurement <Marker> 1 to 4 Marker (M1 to M4) Parameters: <value> Default unit: s 13.15.2 DISPlay Commands .....................
Page 412 ® Remote Control Commands R&S R&S NRP2 Compatibility None. The commands of the DISPlay system conform to the R&S NRX concept. Suffix: <Undef> 1 to n No suffix required. Parameters: <window> Range: 1 to 4 *RST: DISPlay[:WINDow<Undef>]:SIZE <size> Available for R&S NRP2 compatibility. Recommended R&S NRX command: None.
Page 413 ® Remote Control Commands R&S R&S NRP2 Compatibility DISPlay[:WINDow<Window>]:ANALog:UPPer:POWer <value> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:METer<DirectionalChannel>:UPPer[:DATA][: on page 200 POWer] Suffix: <Window> 1 to 8 Measurement Parameters: <value> <block_data> DISPlay[:WINDow<Window>]:ANALog:UPPer:RATio <value> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:METer<DirectionalChannel>:UPPer[:DATA]: on page 200 RATio[:VALue]...
Page 414 ® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <format> DIGital | ANALog | GRAPhical *RST: DIGital DISPlay[:WINDow<Window>]:METer:LOWer:POWer <value> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:METer<DirectionalChannel>:LOWer[:DATA][: on page 197 POWer] Suffix: <Window> 1 to 4 Measurement pane Parameters: <value>...
Page 415 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Window> 1 to 4 Measurement pane Parameters: <value> DISPlay[:WINDow<Window>]:RESolution <resolution> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:RESolution Suffix: <Window> 1 to 8 Measurement Parameters: <resolution> Range: 0.001 to 1 *RST: 0.01 DISPlay[:WINDow<Window>]:TRACe:LOWer <value>...
Page 416: Output Commands
® Remote Control Commands R&S R&S NRP2 Compatibility DISPlay[:WINDow<Window>]:TRACe:UPPer <value> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DB CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DBM CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DBUV CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DPCT CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:ONE CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:WATT CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:DB CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:DBM CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:DBUV CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:DPCT CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:ONE CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:WATT Suffix: <Window> 1 to 4 Measurement pane Parameters: <value> DISPlay[:WINDow<Window>]:TSLot <slot>...
Page 417 ® Remote Control Commands R&S R&S NRP2 Compatibility ......................418 OUTPut:TTL:FAIL ......................418 OUTPut:TTL:FEED ...................... 418 OUTPut:TTL[:STATe] OUTPut:RECorder<output>[:STATe] <state> Available for R&S NRP2 compatibility. Recommended R&S NRX command: OUTPut:MODE<output> Suffix: <output> 1 to 2 BNC connectors at the rear; 1 = Out 1 / Trig Out, 2 = Trig In / Out 2 Parameters: <state>...
Page 418: Sense Commands
® Remote Control Commands R&S R&S NRP2 Compatibility OUTPut:LIMit:FAIL Parameters: <mode> LOW | HIGH OUTPut:TTL:FAIL <mode> Available for R&S NRP2 compatibility. Recommended R&S NRX command: OUTPut:LIMit:FAIL Parameters: <mode> LOW | HIGH OUTPut:TTL:FEED <feed> Available for R&S NRP2 compatibility. Recommended R&S NRX command: OUTPut:LIMit:FEED:INDex Parameters: <feed>...
Page 419 ® Remote Control Commands R&S R&S NRP2 Compatibility .............. 425 [SENSe<Sensor>:]CORRection:DCYCle[:VALue] ........426 [SENSe<Sensor>:]CORRection:FDOFfset[:INPut][:MAGNitude]? ............. 426 [SENSe<Sensor>:]CORRection:FDOTable:STATe ............426 [SENSe<Sensor>:]CORRection:FDOTable[:SELect] ..............426 [SENSe<Sensor>:]CORRection:OFFSet:STATe .............. 427 [SENSe<Sensor>:]CORRection:OFFSet[:VALue] ....................427 [SENSe<Sensor>:]DATA? ................427 [SENSe<Sensor>:]DM:WCDMa:CRATe ................... 428 [SENSe<Sensor>:]FUNCtion[:ON] ..................428 [SENSe<Sensor>:]INFormation? ..............428 [SENSe<Sensor>:]INPut:ATTenuation:AUTO ..............429 [SENSe<Sensor>:]INPut:ATTenuation[:VALue] ............
Page 420 ® Remote Control Commands R&S R&S NRP2 Compatibility ..............441 [SENSe<Sensor>:]TRACe:AVERage:TCONtrol ..............441 [SENSe<Sensor>:]TRACe:AVERage[:STATe] ..............441 [SENSe<Sensor>:]TRACe:ESAMpling:AUTO ............441 [SENSe<Sensor>:]TRACe:MEASurement:ALGorithm ......442 [SENSe<Sensor>:]TRACe:MEASurement:DEFine:DURation:REFerence ......442 [SENSe<Sensor>:]TRACe:MEASurement:DEFine:TRANsition:HREFerence ......442 [SENSe<Sensor>:]TRACe:MEASurement:DEFine:TRANsition:LREFerence ............443 [SENSe<Sensor>:]TRACe:MEASurement:POWer:AVG? ........443 [SENSe<Sensor>:]TRACe:MEASurement:POWer:HREFerence? ........443 [SENSe<Sensor>:]TRACe:MEASurement:POWer:LREFerence? ........... 444 [SENSe<Sensor>:]TRACe:MEASurement:POWer:MAX? ............ 444 [SENSe<Sensor>:]TRACe:MEASurement:POWer:MIN? ........
Page 421 ® Remote Control Commands R&S R&S NRP2 Compatibility CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:COUNt:AUTO: NSRatio Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <nsr>...
Page 422 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <state>...
Page 423 ® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <mode> MOVing | REPeat If you use instead of *RST, the RST value dif- SYSTem:PRESet fers. See Table 13-16. *RST: REPeat [SENSe<Sensor>:]AVERage:TYPE <type> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:CHANnel<Channel>]:AVERage:TYPE Suffix: <Sensor>...
Page 424 ® Remote Control Commands R&S R&S NRP2 Compatibility [SENSe<Sensor>:]BURSt:MODE <mode> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:MODE Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <mode>...
Page 425 ® Remote Control Commands R&S R&S NRP2 Compatibility CALCulate<Measurement>[:CHANnel<Channel>]:NRT:VBWidth[:VALue] Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <mode>...
Page 426 ® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <duty_cycle> Range: 0.001 to 100.00 *RST: 50.0 Default unit: pct [SENSe<Sensor>:]CORRection:FDOFfset[:INPut][:MAGNitude]? Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:OFFSet[: MAGNitude] Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only...
Page 427 ® Remote Control Commands R&S R&S NRP2 Compatibility CALCulate<Measurement>[:CHANnel<Channel>]:CORRection:OFFSet: STATe Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <state>...
Page 428 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <value>...
Page 429 ® Remote Control Commands R&S R&S NRP2 Compatibility [SENSe<Sensor>:]INPut:ATTenuation[:VALue] <value> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:CHANnel<Channel>]:INPut:ATTenuation[: VALue] Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <value>...
Page 430 ® Remote Control Commands R&S R&S NRP2 Compatibility CALCulate<Measurement>[:CHANnel<Channel>][:POWer][:AVG]: SMOothing[:STATe] Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <state>...
Page 431 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <gate>...
Page 432 ® Remote Control Commands R&S R&S NRP2 Compatibility <Gate> 1 to 4 Time gate Parameters: <time_interval> Default unit: s [SENSe<Sensor>:][POWer:]TGATe<Gate>[:EXCLude]:MID:TIME <time_interval> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:POWer]:TGATe<Gate>[:AVG][:EXCLude]:MID: TIME Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 <Gate>...
Page 433 ® Remote Control Commands R&S R&S NRP2 Compatibility [SENSe<Sensor>:][POWer:]TSLot[:AVG]:WIDTh <width> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:POWer]:TSLot[:AVG]:WIDTh Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <width>...
Page 434 ® Remote Control Commands R&S R&S NRP2 Compatibility CALCulate<Measurement>[:POWer]:TSLot[:AVG][:EXCLude]:MID[:STATe] Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <state>...
Page 435 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <state>...
Page 436 ® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <value> Range: 1.0e+7 to 1.2e+8 *RST: 1.0e+7 Default unit: Hz [SENSe<Sensor>:]ROSCillator:REFio:OUTPut[:STATe] <value> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:CHANnel<Channel>]:ROSCillator:REFio: OUTPut[:STATe] Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <value>...
Page 437 ® Remote Control Commands R&S R&S NRP2 Compatibility [SENSe<Sensor>:]SGAMma:CORRection:STATe <state> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma:CORRection: STATe Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <state>...
Page 438 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <value>...
Page 439 ® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <rlev> Range: -280.0 to 220.0 *RST: -30.0 Default unit: dBm [SENSe<Sensor>:]STATistics:TIME <time> Available for R&S NRP2 compatibility. Recommended R&S NRX command: if a gate is set. CALCulate<Measurement>[:POWer]:TGATe<Gate>[:AVG]:TIME if no gate is set. CALCulate<Measurement>:STATistics:APERture Suffix: <Sensor>...
Page 440 ® Remote Control Commands R&S R&S NRP2 Compatibility Parameters: <time> Range: 0.0 to 0.3 *RST: Default unit: s [SENSe<Sensor>:]TIMing:EXCLude:STARt <exclude_start> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:TSLot:TIMing:EXCLude:STARt Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <exclude_start>...
Page 441 ® Remote Control Commands R&S R&S NRP2 Compatibility [SENSe<Sensor>:]TRACe:AVERage:TCONtrol <mode> Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage: TCONtrol[:ENUM] Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <mode>...
Page 442 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <value>...
Page 443 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Parameters: <value>...
Page 444 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only [SENSe<Sensor>:]TRACe:MEASurement:POWer:MAX? Available for R&S NRP2 compatibility.
Page 445 ® Remote Control Commands R&S R&S NRP2 Compatibility [SENSe<Sensor>:]TRACe:MEASurement:POWer:PULSe:TOP? Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:TRACe:MEASurement:POWer:PULSe:TOP? If you enter a value without unit, the unit is defined by [SENSe<Sensor>:]UNIT: POWer[:VALue]. For further information, see Chapter 13.5.1.3, "Units", on page 207.
Page 446 ® Remote Control Commands R&S R&S NRP2 Compatibility Usage: Query only [SENSe<Sensor>:]TRACe:MEASurement:PULSe:PERiod? Available for R&S NRP2 compatibility. Recommended R&S NRX command: CALCulate<Measurement>:TRACe:MEASurement:PULSe:PERiod? Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only...
Page 447 ® Remote Control Commands R&S R&S NRP2 Compatibility Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only [SENSe<Sensor>:]TRACe:MEASurement:TRANsition:NEGative:OCCurrence? Available for R&S NRP2 compatibility.
Page 448 ® Remote Control Commands R&S R&S NRP2 Compatibility CALCulate<Measurement>:TRACe:MEASurement:TRANsition:POSitive: OCCurrence? Suffix: <Sensor> 1 to 128 Configured sensor connected at: port A = 1, ... , port D = 4, R&S NRX-B9 = 101, USB and LAN port = 5 to 100 Usage: Query only [SENSe<Sensor>:]TRACe:MEASurement:TRANsition:POSitive:OVERshoot?
Page 449: Remote Control Basics
® Remote Control Basics R&S Remote Control Interfaces and Protocols 14 Remote Control Basics ● Remote Control Interfaces and Protocols............. 449 ● SCPI Command Structure..................453 ● Command Sequence and Synchronization............460 ● Status Reporting System..................461 14.1 Remote Control Interfaces and Protocols For remote control, communication between the R&S NRX and the controlling host is established based on the following interfaces and protocols.
Page 450: Ethernet Interface
® Remote Control Basics R&S Remote Control Interfaces and Protocols Apart from the USBTMC driver, which comes with the installation of the R&S NRP Toolkit, you do not have to install a separate driver. Setup ► Connect the host interface of the R&S NRX and the USB interface of the computer. USBTMC protocol USBTMC is a protocol that is built on top of USB for communication with USB devices from the test &...
Page 451: Visa Resource Strings
® Remote Control Basics R&S Remote Control Interfaces and Protocols Setup ► Using the Ethernet interface, connect the computer and the R&S NRX to a local area network. 14.1.2.1 VISA Resource Strings The VISA resource string for network device communication is required to establish a communication session between the controller and the power sensor in a LAN.
Page 452: Protocol
® Remote Control Basics R&S Remote Control Interfaces and Protocols ● SOCKET indicates the raw network socket resource class Socket communication requires the specification of the port (commonly referred to as port number) and of "SOCKET" to complete the VISA resource string with the associ- ated protocol used.
Page 453: Socket Communication
® Remote Control Basics R&S SCPI Command Structure The HiSLIP data is sent to the device using the "fire and forget" method with immediate return. Opposed to VXI-11, where each operation is blocked until a VXI-11 device handshake returns. Thus, a successful return of a VISA operation such as viWrite() does not guarantee that the sensor has finished (or even started) executing the requested command.
Page 454: Syntax For Common Commands
® Remote Control Basics R&S SCPI Command Structure The commands can be either device-specific or device-independent (common com- mands). Common and device-specific commands differ in their syntax. 14.2.1 Syntax for Common Commands Common (=device-independent) commands consist of a header preceded by an aster- isk (*) and possibly one or more parameters.
Page 455: Scpi Parameters
® Remote Control Basics R&S SCPI Command Structure Different numbering in remote control For remote control, the suffix can differ from the number of the corresponding selection used in manual operation. SCPI prescribes that suffix counting starts with 1. Suffix 1 is the default state and used when no specific suffix is specified.
Page 456 ® Remote Control Basics R&S SCPI Command Structure ● Character strings ● Block data The parameters required for each command and the allowed range of values are specified in the command description. Numeric values Numeric values can be entered in any form, i.e. with sign, decimal point and exponent. Values exceeding the resolution of the instrument are rounded up or down.
Page 457 ® Remote Control Basics R&S SCPI Command Structure DEFault denotes a preset value which has been stored in the non-variable mem- ory. This value conforms to the default setting, as it is called by the *RST com- mand. ● UP/DOWN UP, DOWN increases or reduces the numeric value by one step.
Page 458: Overview Of Syntax Elements
® Remote Control Basics R&S SCPI Command Structure Block data Block data is a format which is suitable for the transmission of large amounts of data. A command using a block data parameter has the following structure: Example: SYSTem:HELP:SYNTax:ALL? Response: #45168xxxxxxxx The ASCII character # introduces the data block.
Page 459: Responses To Queries
® Remote Control Basics R&S SCPI Command Structure ● an EOI together with the last data byte Several commands in a command line must be separated by a semicolon ";". If the next command belongs to a different command system, the semicolon is followed by a colon.
Page 460: Command Sequence And Synchronization
® Remote Control Basics R&S Command Sequence and Synchronization Setting command: TRIGger:SOURce INTernal Query: TRIG:SOUR? Response: INT 14.3 Command Sequence and Synchronization A sequential command finishes the execution before the next command is starting. To make sure that commands are carried out in a certain order, each command must be sent in a separate command line.
Page 461: Status Reporting System
® Remote Control Basics R&S Status Reporting System 14.4 Status Reporting System The status reporting system stores all information on the current operating state of the instrument, and on errors which have occurred. This information is stored in the status registers and in the error queue.
Page 462: Structure Of A Scpi Status Register
® Remote Control Basics R&S Status Reporting System ● Associated standard event status enable register (ESE) ● SCPI-defined operation status register ● Questionable status register, which contains detailed information on the device. The R&S NRX works with several status register levels to support a high number of measurements.
Page 463 ® Remote Control Basics R&S Status Reporting System CONDition status register part The five parts of a SCPI register have different properties and functions: The CONDition part is written into directly by the hardware or the sum bit of the next lower register.
Page 464: Status Byte (Stb) And Service Request Enable Register (Sre)
® Remote Control Basics R&S Status Reporting System Sum bit The sum bit is obtained from the EVENt and ENABle part for each register. The result is then entered into a bit of the CONDition part of the higher-order register. The instrument automatically generates the sum bit for each register.
Page 465: Ist Flag And Parallel Poll Enable Register (Ppe)
® Remote Control Basics R&S Status Reporting System Short description Bit is set if One of the bits in the standard event status register is set and enabled in the event status enable register. Setting this bit Standard event status register denotes a serious error which can be specified in greater detail summary by querying the standard event status register.
Page 466 ® Remote Control Basics R&S Status Reporting System Sensor A connected Sensor B connected Sensor A error Sensor B error Sensor A Front/Rear Sensor B Front/Rear Sensor C connected Sensor D connected Sensor C error Sensor D error Sensor C Front/Rear Sensor D Front/Rear NRT Sensor connected Key pressed...
Page 467: Questionable Status Register
® Remote Control Basics R&S Status Reporting System Bit no. Short description Bit is set if NRT sensor connected Key pressed Front panel key pressed. 14.4.6 Questionable Status Register Contains information on questionable instrument states that occur if the instrument is not operated in compliance with its specifications.
Page 468: Questionable Power Status Register
® Remote Control Basics R&S Status Reporting System Bit no. Short description Bit is set if POST failure Built-in test of the R&S NRX that is carried out automatically upon power-up has generated an error. Warning 14.4.6.1 Questionable Power Status Register Contains information whether the measured power values are questionable.
Page 469: Questionable Measurement Status Registers
® Remote Control Basics R&S Status Reporting System 14.4.6.2 Questionable Measurement Status Registers Contain information whether the displayed data or the calculated power is questiona- ble. For information on index m, see Chapter 14.4.1, "Hierarchy of the Status Registers", on page 461. Extension Summary Measurement m+1 Power Measurement m+2 Power...
Page 470: Questionable Calibration Status Register
® Remote Control Basics R&S Status Reporting System Bit no. Short description Bit is set if measured values of a measurement channel are corrupt or for the extension summary. Measurement m+6 power Channel 6 Measurement m+7 power Channel 7 Measurement m+8 power Channel 8 14.4.6.3 Questionable Calibration Status Register...
Page 471: Standard Event Status And Enable Register (Esr, Ese)
® Remote Control Basics R&S Status Reporting System Bit no. Short description Bit is set if zeroing of a sensor is not successful. NRT sensor calibration R&S NRT-Zxx power sensor Other sensor calibration USB or LAN power sensor 14.4.7 Standard Event Status and Enable Register (ESR, ESE) The ESR is already defined in the IEEE 488.2 standard.
Page 472: Operation Status Register
® Remote Control Basics R&S Status Reporting System 14.4.8 Operation Status Register Contains information on current operations, CONDition register, or operations per- formed since the last query, EVENt register. Operation CAL Summary Operation Measurement Summary Operation Trigger Summary Operation Sense Summary Lower Limit Fail Upper Limit Fail Figure 14-9: Operation status register...
Page 473: Operation Calibrating Status Register
® Remote Control Basics R&S Status Reporting System 14.4.8.1 Operation Calibrating Status Register The CONDition register contains information whether a power sensor is being calibra- ted. The EVENt register contains information whether a calibration was started or com- pleted since the last query. Sensor A calibrating Sensor B calibrating Sensor C calibrating...
Page 474: Operation Measuring Status Register
® Remote Control Basics R&S Status Reporting System 14.4.8.2 Operation Measuring Status Register The CONDition register contains information whether a power sensor is measuring. The EVENt register contains information whether a measurement was started or com- pleted since the last query. Extension Summary Sensor A measuring Sensor B measuring...
Page 475: Operation Measuring Extended Status Registers
® Remote Control Basics R&S Status Reporting System 14.4.8.3 Operation Measuring Extended Status Registers The CONDition registers contain information whether a measurement channel is used. The EVENt registers contain information whether a measurement channel was used since the last query. For information on index m, see Chapter 14.4.1, "Hierarchy of the Status Registers",...
Page 476: Operation Trigger Status Register
® Remote Control Basics R&S Status Reporting System Bit no. Short description Bit is set if a measurement channel is active or for the extension summary. Measurement m+6 measuring Channel 6 Measurement m+7 measuring Channel 7 Measurement m+8 measuring Channel 8 14.4.8.4 Operation Trigger Status Register The CONDition register contains information whether a power sensor is waiting for a...
Page 477: Operation Trigger Extended Status Registers
® Remote Control Basics R&S Status Reporting System Bit no. Short description Bit is set if a sensor is waiting for trigger event or for the extension summary. Sensor C wait for trigger Sensor C Sensor D wait for trigger Sensor D NRT sensor wait for trigger R&S NRT-Zxx power sensor...
Page 478: Operation Sense Status Register
® Remote Control Basics R&S Status Reporting System Table 14-16: Used operation trigger extended status bits and their meaning Bit no. Short description Bit is set if a measurement channel is waiting for trigger event or for the extension summary. Extension summary Sum bit of the next lower status register.
Page 479: Operation Lower Limit Fail Status Registers
® Remote Control Basics R&S Status Reporting System Sensor A initializing Sensor B initializing Sensor C initializing Sensor D initializing NRT Sensor initializing Other Sensor initializing Figure 14-15: Operation sense status register Querying the register: ● STATus:OPERation:SENSe:CONDition? ● STATus:OPERation:SENSe[:SUMMary][:EVENt]? Table 14-17: Used operation sense status bits and their meaning Bit no.
Page 480 ® Remote Control Basics R&S Status Reporting System Extension Summary Measurement m+1 Lower Limit Fail Measurement m+2 Lower Limit Fail Measurement m+3 Lower Limit Fail Measurement m+4 Lower Limit Fail Measurement m+5 Lower Limit Fail Measurement m+6 Lower Limit Fail Measurement m+7 Lower Limit Fail Measurement m+8 Lower Limit Fail Figure 14-16: Operation lower limit fail status registers...
Page 481: Operation Upper Limit Fail Status Registers
® Remote Control Basics R&S Status Reporting System 14.4.8.8 Operation Upper Limit Fail Status Registers The CONDition registers contain information whether a measured value currently exceeds a configured upper limit. The EVENt registers contain information whether a measured value exceeded an upper limit value since the last query. For information on index m, see Chapter 14.4.1, "Hierarchy of the Status Registers",...
Page 482 ® Remote Control Basics R&S Status Reporting System Bit no. Short description Bit is set if measured values of a measurement channel exceed the upper limit value or for the summary. Measurement m+7 upper limit fail Channel 7 Measurement m+8 upper limit fail Channel 8 User Manual 1178.5566.02 ─...
Page 483: Troubleshooting
® Troubleshooting R&S Error Messages 15 Troubleshooting ● Displaying Information...................483 ● Error Messages.....................483 ● Performing Tests....................487 ● Collecting Information for Technical Support............487 ● Contacting Customer Support................488 15.1 Displaying Information Status information Status information is displayed in the title bar of the graphical user interface. See Chapter 4, "Operating Concepts", on page 31.
Page 484: Interpreting The Errors And Error Codes
® Troubleshooting R&S Error Messages 15.2.1 Interpreting the Errors and Error Codes In the following, important error messages and their meaning are explained. For all other errors, perform tests to find out whether it is a hardware or software problem, and report the problem to the R&S customer support.
Page 485: Power Sensor Errors
® Troubleshooting R&S Error Messages ● The environmental temperature exceeds the suitable temperature range given in the data sheet under environmental conditions. ● The fan does not work properly. See Chapter 15.5, "Contacting Customer Support", on page 488. 1009 - fan failure alert The fan does not work.
Page 486: Sensor Check Source (R&S Nrx-B1) Errors
® Troubleshooting R&S Error Messages 2006 - sensor overrange Possible reasons: ● The detected signal is above the maximum value that the power sensor can cor- rectly measure. ● The current settings of the R&S NRX exceed the specified operating range of the connected power sensor.
Page 487: License Key Errors
® Troubleshooting R&S Collecting Information for Technical Support Solution: Update the sensor check source (R&S NRX-B1) as described in "Sensor Check Source Info" on page 145. 15.2.1.4 License Key Errors Number range of error codes: 4000 to 4999. 4001 - license key management warning Usually caused by: ●...
Page 488: Contacting Customer Support
® Troubleshooting R&S Contacting Customer Support Obtaining information from the R&S NRX firmware 1. Select [System] > "Test". 2. Create and save the information for troubleshooting. See "Creating information for troubleshooting" on page 164. Attach the archive file to an email in which you describe the problem. 15.5 Contacting Customer Support Technical support –...
Page 489: Glossary: List Of Abbreviations
® Glossary: List of Abbreviations R&S Glossary: List of Abbreviations AVG: Average CCDF: Complementary cumulative distribution function CDMA: Code division multiple access DHCP: Dynamic host control protocol DNS: Domain name system EMC: Electromagnetic compatibility EMI: Electromagnetic interference GPIB: General purpose interface bus HiSLIP: High-speed LAN instrument protocol IDN: Instrument identification string IP: Internet protocol...
Page 490 ® Glossary: List of Abbreviations R&S SSH: Secure shell SWR: Standing wave ratio USB: Universal serial bus VISA: Virtual instrument software architecture VNC: Virtual network computing WCDMA: Wideband code division multiple access User Manual 1178.5566.02 ─ 07...
Page 491: List Of Commands
® List of Commands R&S List of Commands [SENSe<Sensor>:][POWer:][AVG:]APERture[:VALue].................. 429 [SENSe<Sensor>:][POWer:][AVG:]BUFFer:CLEar..................235 [SENSe<Sensor>:][POWer:][AVG:]BUFFer:COUNt?..................235 [SENSe<Sensor>:][POWer:][AVG:]BUFFer:INFO?..................236 [SENSe<Sensor>:][POWer:][AVG:]BUFFer:SIZE..................236 [SENSe<Sensor>:][POWer:][AVG:]BUFFer:STATe..................236 [SENSe<Sensor>:][POWer:][AVG:]SMOothing:STATe.................. 429 [SENSe<Sensor>:][POWer:]BURSt:DTOLerance..................430 [SENSe<Sensor>:][POWer:]NCORrection[:STATe]..................430 [SENSe<Sensor>:][POWer:]TGATe:SELect....................430 [SENSe<Sensor>:][POWer:]TGATe[:EXCLude]:MID[:STATe]................432 [SENSe<Sensor>:][POWer:]TGATe<Gate>:OFFSet:TIME................431 [SENSe<Sensor>:][POWer:]TGATe<Gate>:TIME..................431 [SENSe<Sensor>:][POWer:]TGATe<Gate>[:EXCLude]:MID:OFFSet[:TIME]..........431 [SENSe<Sensor>:][POWer:]TGATe<Gate>[:EXCLude]:MID:TIME............... 432 [SENSe<Sensor>:][POWer:]TSLot[:AVG]:COUNt..................432 [SENSe<Sensor>:][POWer:]TSLot[:AVG]:WIDTh..................433 [SENSe<Sensor>:][POWer:]TSLot[:AVG][:EXCLude]:MID:OFFSet[:TIME]...........433 [SENSe<Sensor>:][POWer:]TSLot[:AVG][:EXCLude]:MID:TIME..............433 [SENSe<Sensor>:][POWer:]TSLot[:AVG][:EXCLude]:MID[:STATe]...............433 [SENSe<Sensor>:]ADD..........................397 [SENSe<Sensor>:]AUXiliary..........................231 [SENSe<Sensor>:]AVERage:COUNt:AUTO:MTIMe..................
Page 492 ® List of Commands R&S [SENSe<Sensor>:]CORRection:DCYCle:STATe................... 425 [SENSe<Sensor>:]CORRection:DCYCle[:INPut][:MAGNitude]..............425 [SENSe<Sensor>:]CORRection:DCYCle[:VALue]..................425 [SENSe<Sensor>:]CORRection:FDOFfset[:INPut][:MAGNitude]?..............426 [SENSe<Sensor>:]CORRection:FDOTable:STATe..................426 [SENSe<Sensor>:]CORRection:FDOTable[:SELect]..................426 [SENSe<Sensor>:]CORRection:OFFSet:STATe................... 426 [SENSe<Sensor>:]CORRection:OFFSet[:VALue]..................427 [SENSe<Sensor>:]CORRection:SPDevice:LIST?..................325 [SENSe<Sensor>:]CORRection:SPDevice:SELect..................325 [SENSe<Sensor>:]CORRection:SPDevice:STATe..................325 [SENSe<Sensor>:]DATA?..........................427 [SENSe<Sensor>:]DM:STANdard......................... 360 [SENSe<Sensor>:]DM:STATe........................359 [SENSe<Sensor>:]DM:WCDMa:CRATe......................427 [SENSe<Sensor>:]FREQuency:FIXed......................319 [SENSe<Sensor>:]FREQuency:TRACk......................320 [SENSe<Sensor>:]FREQuency[:CW]......................319 [SENSe<Sensor>:]FUNCtion:CONCurrent....................282 [SENSe<Sensor>:]FUNCtion:OFF:ALL<Channel>..................282 [SENSe<Sensor>:]FUNCtion:OFF[:FUNC]....................283 [SENSe<Sensor>:]FUNCtion:STATe?......................283 [SENSe<Sensor>:]FUNCtion[:ON]........................
Page 493 ® List of Commands R&S [SENSe<Sensor>:]SGAMma:CORRection:STATe..................437 [SENSe<Sensor>:]SGAMma:PHASe......................437 [SENSe<Sensor>:]SGAMma[:MAGNitude]....................437 [SENSe<Sensor>:]STATistics:AVERage?..................... 268 [SENSe<Sensor>:]STATistics:OFFSet[:TIME]....................269 [SENSe<Sensor>:]STATistics:PEAK?......................269 [SENSe<Sensor>:]STATistics:SAMPles[:MINimum]..................437 [SENSe<Sensor>:]STATistics:SCALe:X:MPWidth?..................273 [SENSe<Sensor>:]STATistics:SCALe:X:POINts....................438 [SENSe<Sensor>:]STATistics:SCALe:X:RANGe...................438 [SENSe<Sensor>:]STATistics:SCALe:X:RLEVel................... 438 [SENSe<Sensor>:]STATistics:TIME......................439 [SENSe<Sensor>:]STATistics[:EXCLude]:MID:OFFSet[:TIME]..............439 [SENSe<Sensor>:]STATistics[:EXCLude]:MID:TIME..................439 [SENSe<Sensor>:]TIMing:EXCLude:STARt....................440 [SENSe<Sensor>:]TIMing:EXCLude:STOP....................440 [SENSe<Sensor>:]TRACe:AVERage:COUNt....................440 [SENSe<Sensor>:]TRACe:AVERage:TCONtrol.................... 441 [SENSe<Sensor>:]TRACe:AVERage[:STATe]....................441 [SENSe<Sensor>:]TRACe:ESAMpling:AUTO....................441 [SENSe<Sensor>:]TRACe:MEASurement:ALGorithm.................. 441 [SENSe<Sensor>:]TRACe:MEASurement:AUTO[:STATe]................248 [SENSe<Sensor>:]TRACe:MEASurement:DEFine:DURation:REFerence............442 [SENSe<Sensor>:]TRACe:MEASurement:DEFine:TRANsition:HREFerence..........
Page 494 ® List of Commands R&S [SENSe<Sensor>:]TRACe:POINts........................ 448 [SENSe<Sensor>:]TRACe:REALtime......................238 [SENSe<Sensor>:]TRACe:TIME........................206 [SENSe<Sensor>:]UNIT:POWer[:VALue]...................... 207 *CLS................................175 *DEV................................176 *DMC................................176 *EMC................................176 *ESE................................176 *ESR?................................176 *GCLS................................177 *GMC?................................177 *GOPC?.................................177 *GWAI................................177 *IDN?................................177 *IST?................................177 *LMC?................................178 *OPC................................178 *OPT?................................178 *PMC................................178 *PRE................................178 *PSC................................179 *RCL................................
Page 495 ® List of Commands R&S CALCulate<Measurement>:DATA?....................... 286 CALCulate<Measurement>:DMODe......................188 CALCulate<Measurement>:EXTRemes:RESet.....................189 CALCulate<Measurement>:HOLD:FUNCtion....................189 CALCulate<Measurement>:HOLD[:STATe]....................190 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer:STATe............214 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]............211 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:CCDF..........211 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:POWer...........214 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:RATio:RCOefficient......212 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:RATio:RFRatio.......212 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:RATio:RLOSs........ 212 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:RATio:SWR........213 CALCulate<Measurement>:LIMit<DirectionalChannel>:LOWer[:DATA]:RATio[:VALue]....... 213 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer:STATe............218 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]............214 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:CCDF..........215 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:POWer..........217 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:RATio:RCOefficient......215 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:RATio:RFRatio....... 215 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:RATio:RLOSs......... 216 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:RATio:SWR........216 CALCulate<Measurement>:LIMit<DirectionalChannel>:UPPer[:DATA]:RATio[:VALue]........
Page 496 ® List of Commands R&S CALCulate<Measurement>:RELative<DirectionalChannel>:POWer[:MAGNitude]........280 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:RCOefficient......... 280 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:RFRatio..........280 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:RLOSs..........281 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio:SWR............. 281 CALCulate<Measurement>:RELative<DirectionalChannel>:RATio[:MAGNitude]......... 282 CALCulate<Measurement>:RELative<DirectionalChannel>:STATe..............234 CALCulate<Measurement>:RELative<DirectionalChannel>[:MAGNitude]............233 CALCulate<Measurement>:RELative<DirectionalChannel>[:MAGNitude]:AUTO.........233 CALCulate<Measurement>:RESolution......................190 CALCulate<Measurement>:SDEViation:DATA?.................... 287 CALCulate<Measurement>:STATistics:APERture..................270 CALCulate<Measurement>:STATistics:AWGN[:STATe]................270 CALCulate<Measurement>:STATistics:MARKer:HORizontal:DATA?............277 CALCulate<Measurement>:STATistics:MARKer:HORizontal:POSition[:X][:POWer]........410 CALCulate<Measurement>:STATistics:MARKer:VERTical:DATA[:POWer]?..........277 CALCulate<Measurement>:STATistics:MARKer:VERTical:POSition[:Y]............410 CALCulate<Measurement>:STATistics:MARKer:X:POSition:RELative............278 CALCulate<Measurement>:STATistics:MARKer:X:POSition[:ABSolute]............278 CALCulate<Measurement>:STATistics:PDF:MARKer:Y:POSition..............278 CALCulate<Measurement>:STATistics:PDF[:SCALe]:Y:PDIVision............... 273 CALCulate<Measurement>:STATistics:PDF[:SCALe]:Y:TOP................273 CALCulate<Measurement>:STATistics:POWer:AVG:DATA?.................269 CALCulate<Measurement>:STATistics:SAMPles[:MINimum]................270 CALCulate<Measurement>:STATistics:TGATe:SELection................
Page 497 ® List of Commands R&S CALCulate<Measurement>:TRACe:MEASurement:PULSe:DCYCle?............253 CALCulate<Measurement>:TRACe:MEASurement:PULSe:DURation?............253 CALCulate<Measurement>:TRACe:MEASurement:PULSe:PERiod?............254 CALCulate<Measurement>:TRACe:MEASurement:PULSe:SEParation?.............254 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:ESAMpling:AUTO[:STATe]......324 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:NEGative:DURation?........ 254 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:NEGative:OCCurrence?......255 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:NEGative:OVERshoot?......255 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:POSitive:DURation?......... 255 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:POSitive:OCCurrence?......256 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:POSitive:OVERshoot?......256 CALCulate<Measurement>:TRACe:MEASurement:TRANsition:SPERiod?..........256 CALCulate<Measurement>:TRACe:X:POINts....................237 CALCulate<Measurement>:TRACe:X[:SCALe]:LEFT................... 201 CALCulate<Measurement>:TRACe:X[:SCALe]:LENGth................201 CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DB................201 CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DBM................. 202 CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DBUV............... 202 CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:DPCT............... 202 CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:ONE................. 202 CALCulate<Measurement>:TRACe:Y[:SCALe]:SPAN:WATT............... 203 CALCulate<Measurement>:TRACe:Y[:SCALe]:TOP:DB................
Page 498 ® List of Commands R&S CALCulate<Measurement>[:CHANnel<Channel>]:FEED<Channel>............229 CALCulate<Measurement>[:CHANnel<Channel>]:INPut:ATTenuation:AUTO..........337 CALCulate<Measurement>[:CHANnel<Channel>]:INPut:ATTenuation[:VALue]........... 338 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:APERture:MODE........... 363 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:APERture[:VALue]..........364 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:MODE............355 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:PERiod............356 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:BURSt:WIDTh............357 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:CCDF:THReshold..........357 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:DIRection............... 357 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:DMODulation:WCDMa:CRATe......361 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:DMODulation[:VALue]..........360 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:PEP:HOLD:TIME........... 358 CALCulate<Measurement>[:CHANnel<Channel>]:NRT:VBWidth[:VALue]........... 364 CALCulate<Measurement>[:CHANnel<Channel>]:ROSCillator:REFio:FREQuency........353 CALCulate<Measurement>[:CHANnel<Channel>]:ROSCillator:REFio:OUTPut[:STATe]......353 CALCulate<Measurement>[:CHANnel<Channel>]:ROSCillator:SOURce.............354 CALCulate<Measurement>[:CHANnel<Channel>]:SAMPling............... 322 CALCulate<Measurement>[:CHANnel<Channel>]:SENSe:INDex..............232 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma:CORRection:STATe........328 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma:PHASe............328 CALCulate<Measurement>[:CHANnel<Channel>]:SGAMma[:MAGNitude]..........329 CALCulate<Measurement>[:CHANnel<Channel>]:TRACe:AVERage:COUNt[:VALue]........
Page 499 ® List of Commands R&S CALibration<Sensor>:TEST?........................378 CALibration<Sensor>:ZERO..........................376 CALibration<Sensor>:ZERO:AUTO.......................376 CALibration<Sensor>:ZERO:FAST:AUTO..................... 377 CALibration<undef>:ALL:ZERO:AUTO......................377 CALibration<undef>:ALL:ZERO:FAST:AUTO....................377 CONFigure<Measurement>:ARRay[:POWer][:AVG]:DIFFerence:RELative?..........297 CONFigure<Measurement>:ARRay[:POWer][:AVG]:DIFFerence?............... 297 CONFigure<Measurement>:ARRay[:POWer][:AVG]:RATio:RELative?............298 CONFigure<Measurement>:ARRay[:POWer][:AVG]:RATio?................ 298 CONFigure<Measurement>:ARRay[:POWer][:AVG]:REFLection?............... 299 CONFigure<Measurement>:ARRay[:POWer][:AVG]:RELative?..............299 CONFigure<Measurement>:ARRay[:POWer][:AVG]:RLOSs?..............300 CONFigure<Measurement>:ARRay[:POWer][:AVG]:SUM:RELative?............301 CONFigure<Measurement>:ARRay[:POWer][:AVG]:SUM?................300 CONFigure<Measurement>:ARRay[:POWer][:AVG]:SWR?................301 CONFigure<Measurement>:ARRay[:POWer][:AVG]?................... 296 CONFigure<Measurement>:STATistics:CCDF?.................... 271 CONFigure<Measurement>:STATistics:PDF?....................272 CONFigure<Measurement>:XTIMe[:POWer]:NONE..................239 CONFigure<Measurement>:XTIMe[:POWer]:RATio?..................239 CONFigure<Measurement>:XTIMe[:POWer]?....................238 CONFigure<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence:RELative?...........305 CONFigure<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence?............
Page 500 ® List of Commands R&S CONFigure<Measurement>[:SCALar][:POWer][:AVG]:RLOSs?..............295 CONFigure<Measurement>[:SCALar][:POWer][:AVG]:SUM:RELative?............292 CONFigure<Measurement>[:SCALar][:POWer][:AVG]:SUM?...............292 CONFigure<Measurement>[:SCALar][:POWer][:AVG]:SWR?..............294 CONFigure<Measurement>[:SCALar][:POWer][:AVG]?................290 DIAGnostic:INFO:OTIMe?..........................379 DISPlay:BRIGthness............................191 DISPlay:ERRorlist............................191 DISPlay:ILLumination.............................411 DISPlay:LAYout..............................191 DISPlay:MESSage:TEXT:CLEar........................191 DISPlay:MESSage:TEXT[:DATA]........................192 DISPlay:MESSage:TYPE..........................192 DISPlay:MESSage[:STATe]........................... 192 DISPlay:OVERload[:STATe]...........................192 DISPlay:PIXMap?............................193 DISPlay:UPDate............................193 DISPlay[:WINDow<Undef>]:SELect.......................411 DISPlay[:WINDow<Undef>]:SIZE........................412 DISPlay[:WINDow<Window>]:ANALog:AUTO....................205 DISPlay[:WINDow<Window>]:ANALog:LOWer..................... 205 DISPlay[:WINDow<Window>]:ANALog:LOWer:POWer................412 DISPlay[:WINDow<Window>]:ANALog:LOWer:RATio..................
Page 501 ® List of Commands R&S DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:RELative:POWer:O......245 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:RELative:POWer:WATT.......245 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:RELative:TIME........246 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:POSition:TIME............ 246 DISPlay[:WINDow<Window>]:TRACe:MARKer<Marker>:REFerence............246 DISPlay[:WINDow<Window>]:TRACe:MARKer<Undef>:SELection............. 247 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:AVG[:STATe]..........257 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:MAXimum[:STATe]........257 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:MINimum[:STATe]........257 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:BASE[:STATe]........258 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:HREFerence[:STATe]...... 258 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:LREFerence[:STATe]....... 258 DISPlay[:WINDow<Window>]:TRACe:MEASurement:POWer:PULSe:TOP[:STATe]........259 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:DCYCle[:STATe]...........259 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:DURation[:STATe]........259 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:PERiod[:STATe]..........260 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:RESolution[:STATe]........260 DISPlay[:WINDow<Window>]:TRACe:MEASurement:PULSe:SEParation[:STATe]........260 DISPlay[:WINDow<Window>]:TRACe:MEASurement:RRELation..............261 DISPlay[:WINDow<Window>]:TRACe:MEASurement:SELection..............261 DISPlay[:WINDow<Window>]:TRACe:MEASurement:TRANsition:NEGative:DURation[:STATe]....261 DISPlay[:WINDow<Window>]:TRACe:MEASurement:TRANsition:NEGative:OCCurrence[:STATe].... 261 DISPlay[:WINDow<Window>]:TRACe:MEASurement:TRANsition:NEGative:OVERshoot[:STATe]....262 DISPlay[:WINDow<Window>]:TRACe:MEASurement:TRANsition:POSitive:DURation[:STATe]....
Page 502 ® List of Commands R&S FETCh<Measurement>[:SCALar][:POWer]:BURSt:RLOSs?................ 310 FETCh<Measurement>[:SCALar][:POWer]:BURSt:SUM:RELative?............306 FETCh<Measurement>[:SCALar][:POWer]:BURSt:SUM?................305 FETCh<Measurement>[:SCALar][:POWer]:BURSt:SWR?................308 FETCh<Measurement>[:SCALar][:POWer]:BURSt?..................303 FETCh<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence:RELative?...........313 FETCh<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence?..............312 FETCh<Measurement>[:SCALar][:POWer]:TSLot:RATio:RELative?............316 FETCh<Measurement>[:SCALar][:POWer]:TSLot:RATio?................315 FETCh<Measurement>[:SCALar][:POWer]:TSLot:REFLection?..............317 FETCh<Measurement>[:SCALar][:POWer]:TSLot:RELative?...............312 FETCh<Measurement>[:SCALar][:POWer]:TSLot:RLOSs?................318 FETCh<Measurement>[:SCALar][:POWer]:TSLot:SUM:RELative?..............315 FETCh<Measurement>[:SCALar][:POWer]:TSLot:SUM?................314 FETCh<Measurement>[:SCALar][:POWer]:TSLot:SWR?................317 FETCh<Measurement>[:SCALar][:POWer]:TSLot?..................311 FETCh<Measurement>[:SCALar][:POWer][:AVG]:DIFFerence:RELative?........... 291 FETCh<Measurement>[:SCALar][:POWer][:AVG]:DIFFerence?..............291 FETCh<Measurement>[:SCALar][:POWer][:AVG]:RATio:RELative?............293 FETCh<Measurement>[:SCALar][:POWer][:AVG]:RATio?................293 FETCh<Measurement>[:SCALar][:POWer][:AVG]:REFLection?..............294 FETCh<Measurement>[:SCALar][:POWer][:AVG]:RELative?............... 290 FETCh<Measurement>[:SCALar][:POWer][:AVG]:RLOSs?................295 FETCh<Measurement>[:SCALar][:POWer][:AVG]:SUM:RELative?..............
Page 503 ® List of Commands R&S MEASure<Measurement>:ARRay[:POWer][:AVG]:SWR?................302 MEASure<Measurement>:ARRay[:POWer][:AVG]?..................296 MEASure<Measurement>:STATistics:CCDF?....................271 MEASure<Measurement>:STATistics:PDF?....................272 MEASure<Measurement>:XTIMe[:POWer]:RATio?..................239 MEASure<Measurement>:XTIMe[:POWer]?....................238 MEASure<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence:RELative?..........305 MEASure<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence?............. 304 MEASure<Measurement>[:SCALar][:POWer]:BURSt:RATio:RELative?............308 MEASure<Measurement>[:SCALar][:POWer]:BURSt:RATio?..............307 MEASure<Measurement>[:SCALar][:POWer]:BURSt:REFLection?............. 309 MEASure<Measurement>[:SCALar][:POWer]:BURSt:RELative?..............304 MEASure<Measurement>[:SCALar][:POWer]:BURSt:RLOSs?..............310 MEASure<Measurement>[:SCALar][:POWer]:BURSt:SUM:RELative?............306 MEASure<Measurement>[:SCALar][:POWer]:BURSt:SUM?................ 306 MEASure<Measurement>[:SCALar][:POWer]:BURSt:SWR?................308 MEASure<Measurement>[:SCALar][:POWer]:BURSt?................. 303 MEASure<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence:RELative?..........313 MEASure<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence?.............. 313 MEASure<Measurement>[:SCALar][:POWer]:TSLot:RATio:RELative?............316 MEASure<Measurement>[:SCALar][:POWer]:TSLot:RATio?................315 MEASure<Measurement>[:SCALar][:POWer]:TSLot:REFLection?...............318 MEASure<Measurement>[:SCALar][:POWer]:TSLot:RELative?..............312 MEASure<Measurement>[:SCALar][:POWer]:TSLot:RLOSs?..............318...
Page 504 ® List of Commands R&S MEMory:STATe:MAP............................. 384 MEMory:STATe:RESet...........................384 MEMory:TABLe:DATA:POINts?........................385 MEMory:TABLe:DATA?..........................384 MEMory:TABLe:FREQuency......................... 385 MEMory:TABLe:FREQuency:POINts?......................385 MEMory:TABLe:GAIN:POINts?........................385 MEMory:TABLe:GAIN[:MAGNitude]......................386 MEMory:TABLe:MAP............................. 386 MEMory:TABLe:MOVE..........................386 MEMory:TABLe:RESet..........................387 MEMory:TABLe:SELect..........................387 OUTPut:LIMit:FAIL............................368 OUTPut:LIMit:FEED:INDex..........................368 OUTPut:MODE<output>..........................368 OUTPut:RECorder<output>:FEED:INDex..................... 369 OUTPut:RECorder<output>:FEED[:VALue]....................417 OUTPut:RECorder<output>:LIMit:LOWer:CCDF...................369 OUTPut:RECorder<output>:LIMit:LOWer:POWer..................370 OUTPut:RECorder<output>:LIMit:LOWer:RATio:RCOefficient..............370 OUTPut:RECorder<output>:LIMit:LOWer:RATio:RFRatio................371 OUTPut:RECorder<output>:LIMit:LOWer:RATio:RLOSs................371 OUTPut:RECorder<output>:LIMit:LOWer:RATio:SWR..................371 OUTPut:RECorder<output>:LIMit:LOWer:RATio[:VALue]................372 OUTPut:RECorder<output>:LIMit:LOWer[:VALue]..................
Page 505 ® List of Commands R&S READ<Measurement>:ARRay[:POWer][:AVG]:SUM?.................. 300 READ<Measurement>:ARRay[:POWer][:AVG]:SWR?..................302 READ<Measurement>:ARRay[:POWer][:AVG]?................... 296 READ<Measurement>:STATistics:CCDF?....................271 READ<Measurement>:STATistics:PDF?....................... 272 READ<Measurement>:XTIMe[:POWer]:RATio?....................239 READ<Measurement>:XTIMe[:POWer]?...................... 238 READ<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence:RELative?...........305 READ<Measurement>[:SCALar][:POWer]:BURSt:DIFFerence?..............304 READ<Measurement>[:SCALar][:POWer]:BURSt:RATio:RELative?............308 READ<Measurement>[:SCALar][:POWer]:BURSt:RATio?................307 READ<Measurement>[:SCALar][:POWer]:BURSt:REFLection?..............309 READ<Measurement>[:SCALar][:POWer]:BURSt:RELative?...............304 READ<Measurement>[:SCALar][:POWer]:BURSt:RLOSs?................310 READ<Measurement>[:SCALar][:POWer]:BURSt:SUM:RELative?..............306 READ<Measurement>[:SCALar][:POWer]:BURSt:SUM?................306 READ<Measurement>[:SCALar][:POWer]:BURSt:SWR?................308 READ<Measurement>[:SCALar][:POWer]:BURSt?..................303 READ<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence:RELative?............ 313 READ<Measurement>[:SCALar][:POWer]:TSLot:DIFFerence?..............313 READ<Measurement>[:SCALar][:POWer]:TSLot:RATio:RELative?..............316 READ<Measurement>[:SCALar][:POWer]:TSLot:RATio?................315 READ<Measurement>[:SCALar][:POWer]:TSLot:REFLection?..............318 READ<Measurement>[:SCALar][:POWer]:TSLot:RELative?................
Page 506 ® List of Commands R&S STATus:OPERation:BIT<bitno>:CONDition?....................407 STATus:OPERation:BIT<bitno>:ENABle....................... 408 STATus:OPERation:BIT<bitno>:NTRansition....................409 STATus:OPERation:BIT<bitno>:PTRansition....................409 STATus:OPERation:BIT<bitno>[:EVENt]?..................... 407 STATus:OPERation:CALibrating:CONDition?....................407 STATus:OPERation:CALibrating:ENABle...................... 408 STATus:OPERation:CALibrating:NTRansition....................409 STATus:OPERation:CALibrating:PTRansition....................409 STATus:OPERation:CALibrating[:SUMMary][:EVENt]?................. 407 STATus:OPERation:CONDition?........................407 STATus:OPERation:ENABle.......................... 408 STATus:OPERation:LLFail<RegisterIndex>:CONDition?................407 STATus:OPERation:LLFail<RegisterIndex>:ENABle..................408 STATus:OPERation:LLFail<RegisterIndex>:NTRansition................409 STATus:OPERation:LLFail<RegisterIndex>:PTRansition................409 STATus:OPERation:LLFail<RegisterIndex>[:SUMMary][:EVENt]?..............407 STATus:OPERation:MEASuring:CONDition?....................407 STATus:OPERation:MEASuring:ENABle.......................408 STATus:OPERation:MEASuring:EXTension<RegisterIndex>:CONDition?............407 STATus:OPERation:MEASuring:EXTension<RegisterIndex>:ENABle............408 STATus:OPERation:MEASuring:EXTension<RegisterIndex>:NTRansition........... 409 STATus:OPERation:MEASuring:EXTension<RegisterIndex>:PTRansition...........
Page 507 ® List of Commands R&S STATus:PRESet.............................406 STATus:QUEStionable:BIT<bitno>:CONDition?.................... 407 STATus:QUEStionable:BIT<bitno>:ENABle....................408 STATus:QUEStionable:BIT<bitno>:NTRansition................... 409 STATus:QUEStionable:BIT<bitno>:PTRansition....................409 STATus:QUEStionable:BIT<bitno>[:EVENt]?....................408 STATus:QUEStionable:CALibration:CONDition?...................407 STATus:QUEStionable:CALibration:ENABle....................408 STATus:QUEStionable:CALibration:NTRansition..................409 STATus:QUEStionable:CALibration:PTRansition..................409 STATus:QUEStionable:CALibration[:SUMMary][:EVENt]?................408 STATus:QUEStionable:CONDition?.......................407 STATus:QUEStionable:ENABle........................408 STATus:QUEStionable:MEASure<RegisterIndex>:CONDition?..............407 STATus:QUEStionable:MEASure<RegisterIndex>:ENABle................408 STATus:QUEStionable:MEASure<RegisterIndex>:NTRansition..............409 STATus:QUEStionable:MEASure<RegisterIndex>:PTRansition..............409 STATus:QUEStionable:MEASure<RegisterIndex>[:SUMMary][:EVENt]?............. 408 STATus:QUEStionable:NTRansition......................409 STATus:QUEStionable:POWer:CONDition?....................407 STATus:QUEStionable:POWer:ENABle......................408 STATus:QUEStionable:POWer:NTRansition....................
Page 508 ® List of Commands R&S SYSTem:DATE...............................400 SYSTem:DATE:LOCal........................... 400 SYSTem:DATE:UTC............................400 SYSTem:DEVice:ID?............................. 398 SYSTem:DFPRint............................399 SYSTem:DFPRint:HISTory:COUNt?......................399 SYSTem:DFPRint:HISTory:ENTRy?......................399 SYSTem:DID?..............................398 SYSTem:ERRor:ALL?............................403 SYSTem:ERRor:CODE:ALL?........................403 SYSTem:ERRor:CODE[:NEXT]?........................403 SYSTem:ERRor:COUNt?..........................404 SYSTem:ERRor:EXTended[:STATe]......................404 SYSTem:ERRor[:NEXT]?..........................404 SYSTem:FWUPdate............................390 SYSTem:FWUPdate:STATus?........................390 SYSTem:HCOPy............................219 SYSTem:HELP:HEADers?..........................394 SYSTem:HELP:SYNTax:ALL?........................394 SYSTem:HELP:SYNTax?..........................394 SYSTem:IDN:ANSWer...........................394 SYSTem:IDN:AUTO............................395 SYSTem:IDN:MODE............................395 SYSTem:INFO:TERMchar..........................
Page 509 ® List of Commands R&S SYSTem:TIME:DSTime:RULE........................401 SYSTem:TIME:DSTime:RULE:CATalog?.......................402 SYSTem:TIME:HRTimer:ABSolute:SET......................402 SYSTem:TIME:LOCal............................ 401 SYSTem:TIME:UTC............................401 SYSTem:TZONe............................402 SYSTem:VERSion?............................396 TEST:DEVice:RESult?........................... 379 TEST:DEVice[:ALL]............................379 TEST:SENSor<Sensor>?..........................380 TEST:USB:STORage?...........................380 TRIGger<Measurement>:MODE........................225 TRIGger<Measurement>[:CHANnel<Channel>]:ATRigger[:STATe].............. 220 TRIGger<Measurement>[:CHANnel<Channel>]:COUNt................221 TRIGger<Measurement>[:CHANnel<Channel>]:DELay:AUTO..............221 TRIGger<Measurement>[:CHANnel<Channel>]:DELay[:VALue]..............222 TRIGger<Measurement>[:CHANnel<Channel>]:DTIMe................222 TRIGger<Measurement>[:CHANnel<Channel>]:EXTernal<Port>:IMPedance..........222 TRIGger<Measurement>[:CHANnel<Channel>]:HOLDoff................223 TRIGger<Measurement>[:CHANnel<Channel>]:HYSTeresis................223 TRIGger<Measurement>[:CHANnel<Channel>]:JITTer:METHod..............224 TRIGger<Measurement>[:CHANnel<Channel>]:LEVel................. 224 TRIGger<Measurement>[:CHANnel<Channel>]:MASTer:PORT..............225 TRIGger<Measurement>[:CHANnel<Channel>]:MASTer[:STATe]..............
Page 510: Index
® Index R&S Index Symbols Details tab ............... 160 Device status register ............465 *OPC ................460 Diagnostics *OPC? ................460 Tests ................. 487 *WAI ................460 Dialog 1 Trig key ................26 Measurement Main Configuration ......111 3rd and 4th measurement channel (R&S NRX-K4) ..43 Display layout ..............
Page 511 ® Index R&S Hold-off time Measurement panes Trigger .................61 Swapping ..............38 HW Options tab ............... 159 Measurement results ............70 Measurement settings ..........49, 70 Measurement Settings dialog ..........66 Statistics ..............102 I/O dialog ................. 143 Measurement types ............70 IEC 625/IEEE 488 interface ..........
Page 512 ® Index R&S Parameters SCPI Block data ..............458 Parameters ............... 455 Editing ................. 39 Syntax ............... 454 Special numeric values ..........456 SCPI status register String ................ 458 Structure ..............462 Text ................457 Screenshot key ..............26 Password ................ 157 Screenshots Placing ................
Page 513 ® Index R&S Start dialog ................ 31 General ..............155 Statistics ................99 Global Settings ............164 Result display ............. 99 Hardware Config ............162 Scale configuration ........... 103 HW Options .............. 159 Settings ..............101 Instrument info ............152 Timing ...............
Page 514 ® Index R&S VISA Resource string ............451 VISA Resource tab ............141 VXI-11 Protocol ..............452 Resource string ............451 Zero key ................26 Zeroing sensor ..............134 Zeroing Sensors dialog ........... 134 User Manual 1178.5566.02 ─ 07...

This manual is also suitable for:

Nrx-b1 Nrx-b4 Nrx-8 Nrx-b9 Nrx-k2 Nrx-k4

Save PDF